RU2005116231A - Transformer - Google Patents

Abstract

The invention relates to a transformer including a first (1), a second (2) and a third (3) leg which are aligned in parallel and are magnetically connected, having at least a first primary winding (4) and at least two secondary windings (5, 6). Each of the windings are carried by a different leg, whereby the legs are arranged in a sequence and one of the secondary windings is located between the other two legs. The two legs are connected with a capacity (7) and thus form a resonance circuit. The magnetic connection between the two secondary windings differs from the magnetic connections between the primary and each of the secondary connections. The flux excited by the first secondary winding is anti-parallel to the flux excited by produced by the second secondary winding. A supply voltage can be supplied at the primary winding and the transformer provides a current and a voltage at the secondary windings.

Claims (17)

1. A transformer comprising at least a first (1), a second (2) and a third (3) arms, wherein all arms are aligned substantially parallel to each other, at least one first primary winding (4), at least one first (5) and one second (6) secondary windings and at least one capacitor (7), while at least one first primary winding (4) is wound around the first arm (1), at least one first secondary winding (5) is wound around a second shoulder (2), at least one second secondary winding (6) is wound around a third th arm (3), and the capacitor (7) is connected to at least one winding wound around the second arm (2), and at least one winding wound around the third arm (3) with the formation of a resonant circuit wherein the first arm (1), the second arm (2) and the third arm (3) are arranged in this sequence and are magnetically coupled using at least one upper (9) and lower (9 ') magnetic connection connecting the corresponding the ends of the shoulders, the first (5) and second (6) secondary windings are electrically connected so that the flow is excited the first secondary winding (5) in the second arm (2), is counter-parallel to the flow excited by the second secondary winding (6) in the third arm (3), the secondary windings (5, 6) providing at least one output voltage , and at least one upper (9) or lower (9 ') magnetic connection contains a section (8) located between the second (2) and third (3) arms and having a magnetic conductivity different from the magnetic conductivity between the first and second shoulders. 2. The transformer according to claim 1, containing at least the first (14) and second (16) inner shoulders and the first (10) and second outer shoulders, while all shoulders are aligned essentially parallel to each other, additionally at least at least one second primary winding (22), wherein at least one first primary winding (20) is wound around the first outer shoulder (10), at least one second primary winding (22) is wound around the second outer shoulder ( 12) at least one first secondary winding (30) is wound around the first inner shoulder (14) at least one second secondary winding (32) is wound around a second inner arm (16), and a capacitor (40) is connected to at least one winding wound around a first inner arm (14), and, with at least one winding wound around a second inner arm (16) to form a resonant circuit, wherein the first outer arm (10), the first inner arm (14), the second inner arm (16) and the second outer arm (12 ) are located in this sequence and are magnetically connected using at least one upper first (20) and second (22) primary windings are electrically connected so that the flux excited by the first primary winding (20) in the first (50) and lower (52) magnetic connections connecting the respective ends of the first and second inner and outer arms, the outer shoulder (10), is counter-parallel to the flow excited by the second primary winding (22) in the second outer shoulder (3), and at least one upper (50) or lower (52) magnetic connection contains a section (60 ) located between the first (14) and second (16) inner shoulders and having magnetic conductivity different from magnetic conductivity between each outer arm and an adjacent inner arm, respectively. 3. The transformer according to any one of claims 1 or 2, in which at least one of the secondary windings contains an intermediate tap (A, A '; 170), on which the output voltage is provided. 4. A transformer according to any one of claims 1 or 2, comprising a third secondary winding (234) wound around the first inner arm (214) and a fourth secondary winding (236) wound around the second inner arm (216), which are electrically connected so that the flux excited by the third secondary winding (234) in the first inner arm (214) is counter-parallel to the flux excited by the fourth secondary winding (236) in the second inner arm (212), while the third and fourth windings provide at least least one output voltage and ervaya and second secondary windings (230, 232) are electrically connected to the capacitor (240) to form a resonant circuit. 5. The transformer according to any one of claims 1 or 2, in which the windings providing at least one of the output voltages are connected in parallel or in series. 6. The transformer according to any one of claims 1 or 2, in which the capacitor (40) and the first and second secondary windings are connected in series with the formation of a resonant circuit. 7. The transformer according to any one of claims 1 or 2, in which at least one upper (50) and lower (52) magnetic connections contain a clamp having an air gap, a section with a cross section with a material different from the material of the cross section the rest, having a permeability different from the permeability of the material of the rest of the clamp, and / or the dependence of saturation on the flow in the section, different from the similar dependence in the rest of the clamp, with section (60) located between the shoulders bearing the secondary windings (14, 16; 5 , 6). 8. The transformer according to any one of claims 1 or 2, in which the magnetic coupling between the arms carrying the secondary windings (14, 16; 5, 6) is dependent on the load connected to at least one of the secondary windings supplying output voltage, and from the input voltage, which is supplied to at least one of the primary windings (4; 20, 22). 9. The transformer according to any one of claims 1 or 2, in which the resonant circuit (40, 30, 32) forms an active element, so that the element is independent of the input current or input voltage applied to at least one of the primary windings (4; 20, 22). 10. The transformer according to claim 2, in which the first (20) and second (22) primary windings are connected in series or in parallel. 11. The transformer according to claim 2, in which all the primary windings have the same winding direction and / or all the secondary windings have the same winding direction. 12. The transformer according to any one of claims 1 or 2, in which at least one magnetic connection between the arms (5, 6; 14, 16) carrying the secondary windings provides a magnetic flux and / or ferromagnetic loss. 13. The transformer according to claim 2, in which at least two primary windings (20, 22) contain the same number of turns (n _p , n _p ') and / or at least two secondary windings (30, 32 ) contain the same number of turns (n _s , n _s '). 14. The transformer according to any one of claim 1 or 2, in which the shoulders (2, 3; 14, 16) bearing the secondary windings have a cross-sectional area different from the cross-sectional area of at least one shoulder (1; 10 , 12) carrying at least one primary winding. 15. The transformer according to any one of claims 1 or 2, in which at least one additional winding is wound around one of the inner shoulders (14, 16) and is electrically connected to the first and second primary windings (20, 22). 16. An electrical device containing a transformer according to any one of claims 1 to 15. 17. The electrical device according to clause 16, in which the device comprises a welding machine, an electric furnace or a device for controlling the speed of an electric motor or other devices used to stabilize current, stabilize voltage and / or filter waves.