BG136Y1 - Electromagnetic element - Google Patents

Abstract

The electromagnetic element is used in electrical engineering. It has better functional potentials. It consists of a magnetic circuit (1) enveloped by a screw winding (2) connected to a current source (8) from a supply unit (3). Winding (2) and the ferromagnetic spiral (4) being in contact along its entire length are enveloped by a second winding (5) connected to a current source (9) of a supply unit (3). There is clearance between the adjacent turns (6 & 7) of windings (2 & 5) and two pairs of poles (10) 11) are formed. The ferromagnetic spiral (4) is in contact with one or more sections of the magnetic circuit (1). (11) 137

Description

The utility model can be used as an electromagnet or as a transformer.

BACKGROUND OF THE INVENTION

The disadvantage of this solution is its small functionality, given the inability to change the configuration of the magnetic flux and the trajectory of the anchor.

The task of the utility model is to create an electromagnetic element with increased functionality.

TECHNICAL NATURE OF THE USEFUL MODEL

The problem is solved by an electromagnetic element comprising a magnetic circuit covered by a screw coil connected to a voltage source by a power supply unit. According to a utility model, a second coil-shaped magnet is arranged parallel to the coil, which together with the coil comprises at least one second coil connected to another voltage source of the power supply unit. Two pairs of poles of the magnetic core are formed and the other of the second magnetic circuit.

The second magnetic core is helical and connected to the first magnetic core.

Advantages of the utility model are its increased functionality due to the differential and integral interaction of the magnetic fields, various possible trajectories of the anchor, etc.

DESCRIPTION OF THE DRAWINGS FIG. 1 is a side view of the element;

Figure 2 is a top plan view of an element in another embodiment;

Figure 3 is a longitudinal section view of the element in closed loop ferromagnetic embodiment;

FIG. 4 is a longitudinal section view of a screw channel element in a magnetic circuit. FIG.

EXAMPLES OF THE USEFUL MODEL

The electromagnetic element consists of a magnetic circuit 1 enclosed by a helical coil 2 connected to a voltage source 8 of the power supply unit 3. A second coil-shaped magnetic circuit 4 is arranged parallel to the coil 2, which together with the coil 2 is less than one second coil 5 connected to another voltage source 9 of the power supply unit 3. Two pairs of poles -10 of the magnetic core 1 and other poles 11 of the second magnetic circuit 4 are formed. Alternatively, one magnetic circuit 1 is movably connected to the other magnetic circuit 4.

In another embodiment shown in FIG. 2, the coil 2 and the second core 4 are coaxially arranged, in particular by a conductive layer 13 corresponding to the coil 2 applied to the second core by an insulating pad.

In another embodiment shown in FIG. 3, the second magnetic circuit 4 is connected to the magnetic circuit 1 in at least one portion 16/17 / via a ferromagnetic bridge 15 or directly. In one embodiment, the magnetic circuits 1 and 4 are connected at one end, in the other embodiment, in the middle region, and in the third embodiment, the magnetic circuits 1 and 4 are connected through the poles 10 and 11 at their ends, forming a closed magnetic circuit.

In another embodiment shown in FIG. 4, the second magnetic circuit 4 is helically shaped and is arranged in a corresponding helical channel 14 of the magnetic circuit 1.

USING THE USEFUL MODEL

When a voltage is applied from the power supply unit 3 to the windings 2 and 5 of the magnetic circuits 1 and 4, two pairs of poles, respectively 10 and 11, are formed, the interaction between which depends on their mutual location, their ability to move, and the configuration of the magnetic circuits 1 and 4, from the presence of connections between magnetic circuits 1 and 4, etc. When the poles 10 and 11 are arranged at one end of one of the magnetic circuits 1 and 4, when the second magnetic circuit 4 is stationary, the first magnetic circuit 1 can move axially, such as an anchor.

By connecting the poles 10 and 11 at one end of the magnetic circuits 1 and 4, the number of poles of the electromagnetic element is doubled by simultaneously, sequentially or separately supplying the windings 2 and 5. When connecting the poles 10 and 11 at both ends of the magnetic circuits 1 and 4, a closed ferromagnetic circuit is formed in which, when supplying one coil 2 with alternating current, an alternating current is induced in the other coil 5. The arrangement of the second magnetic circuit 4 in a helical channel of the first 1 alters their interaction and allows each other intimate movement of the magnetic circuits 1 and 4.

Claims (2)

Claims 1. An electromagnetic element comprising a magnetic circuit (1) covered by a screw coil- 5 ka (2) connected to a voltage source (8) by a power supply unit (3), characterized in that a second magnetic conduit (4) is provided in the form of a spiral parallel to the winding (2), which together with the winding / 2 / is 10 covered by at least one second winding / 5 / connected to another voltage source / 9 / of the power supply unit / 3 / whereby two pairs of poles are formed - (10) of the magnetic circuit (1) ) and other poles (11) of the second mag. Electromagnetic element according to claim 1, characterized in that the second coil-shaped magnetic core (4) is connected to the magnetic core (1).