DE202005008057U1 - Inductance coil used in electronic devices, e.g. PCs and servers comprises a core material around which a conducting wire is wound in an established number of turns - Google Patents

Abstract

Inductance coil comprises a core material (10) around which a conducting wire (20) is wound in an established number of turns. The core material has a C-shaped structure having an open end. A permanent magnet is arranged in the holes of the core material.

Description

BACKGROUND THE INVENTION

(a) Scope of the invention

The The present invention relates to an assembly of a choke coil. in particular, a choke coil capable of an unsaturated state under practical operating conditions to maintain the entire To improve the effectiveness of this inductor.

(b) Description of the known embodiment

In a power supply in electrical appliances, such as in PCs, servers, etc., usually becomes a passive component used, such. B. an inductor to the time and waveform of the supplied To regulate AC and in this way as well as possible the Adjust angle consistency according to the DC voltage waveform, what the improvement of the self-powered supply rate of the used electrical appliance promotes. This Supply effect is the so-called phase improvement (PFC).

A conventional Choke coil, also called inductor or coil, is a Type of PFC in a passive component and is an electronic Component that resists variations in the voltage. The choke coil consists of a coil that is wound around a support core. Because of the mutual transformation between electricity and magnetism becomes when the current flows through it, a magnetic field is generated around the wound wire. In contrast, a coil that brings the magnetic lines of force interrupts the current flowing in the coil. The Choke coil is constructed of a wire that is tightly wound, to form a coil, which when flowing through the stream a full Magnetic field generated. At a low flowing voltage The magnetic energy of the coil generates a normal force can withstand the fluctuations of the voltage. The main function The choke therefore consists in filtering out disturbances in the current and in stabilizing the flow of current in a circuit, so disturbances by eliminating electromagnetic waves. The magnetic field can also the stability regulate the voltage by removing the electrical energy in the circuit saves and releases. Therefore, the reactor is widely used in power supplies, Monitors, control panels, motherboards, scanners, telephones, modems etc. used.

Further is the reactor according to the conventional embodiment in principle a fixed choke, around which a calibrated guidewire in a fixed number of windings built around a coil is. Although the conventional Inductor within a preset range of electromagnetism can store the choke coil during the practical use the fluctuations of the input voltage or strong voltage disturbances within a slightly saturated for a short duration, what next to the incompetence to feed an originally stable voltage also leads to damage to the components of the electrical appliance.

SUMMARY THE INVENTION

in view of the above-mentioned disadvantages is an inductance coil according to the invention designed as an inductor in the form of a choke, wherein the core material a C-shaped Circular structure with an open end with a permanent magnet inside his gap and around a core material a calibrated guidewire in one specified number of windings is wound. The permanent Magnet is used to store the electromagnetic energy, thus the effect of the magnetic field of the coil when flowing through the Current is amplified by the guidewire, so as to strong voltage disturbances resist and to the unsaturated state to maintain the entire reactor. Next resists the choke coil fast fluctuations of the input voltage, making this choke coil is capable of the original to deliver stable voltage, and also their useful life effectively extended becomes.

For a better one understanding the above objectives and technical methods of the present The invention follows the following brief description of the enclosed Drawings a detailed description of the preferred embodiments.

SUMMARY THE DRAWINGS

1 shows a plan view of a choke coil according to the present invention.

2 shows a plan view of a core material of the reactor according to the invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT

A choke coil according to the present invention is implemented as an inductor in a choke shape which can maintain an unsaturated state under practical operating conditions so as to improve the overall efficiency of the choke coil. Like this in the 1 showing the reactor of the present invention, this reactor is mainly one nuclear material 10 built around that a calibrated guidewire 20 is wound in a fixed number of turns to form a coil. Next is a circumference of the coil with an insulating material 30 covered. The choke coil is therefore configured to regulate the voltage stability by storing and releasing the electrical energy in a magnetic field generated by the coil.

The 1 and 2 show that the core material is designed as a C-shaped circular structure with an open end. For practical use, this core material 10 made of an Fe-Si-B-Nb-Cu metal alloy and consists of several thin layers of the base material 11 , In a gap 111 of the C-shaped core material 10 is a permanent magnet 12 arranged. This permanent magnet 12 is mainly used to store the electromagnetic energy, with which the effect of the magnetic field of the coil is enhanced when flowing through the current through the guide wire, so that an unsaturated state of the choke coil is maintained, with the effectiveness of the operation of the entire choke coil and thus the useful life of this Choke coil is extended.

In addition, since the reactor of the present invention is an inductor in the form of a reactor which is easy and simple to manufacture and because of the low manufacturing cost and easy availability of the above-mentioned coil material 10 made of an Fe-Si-B-Nb-Cu metal alloy, the present invention proves to be more competitive in the market than other reactors and inductors. In particular, the choke coil of the invention has many advantages, including high saturated magnetic field force, high magnetic penetrability, low wear, compact size, high resistance to large voltage noise, excellent frequency characteristic, high temperature resistance, etc. Therefore, the present invention can be widely used in power supplies, switches, pulse transformers, magnetic heads, power supply transformers, magnetic amplifiers, inductors, brazing alloys, catalytic media, earth fault current interrupters, magnetic separators, magnetic shields, sensors, electric machines, etc.

The The present invention describes a choke coil with a better one practicality and practical supply. It goes without saying that various omissions, modifications, substitutions and amendments the forms and details of the illustrated embodiment and their application is made by those skilled in the art can be without in any way the spirit and scope of the present Deviate from the invention.

Claims (4)

An inductor consisting of a core material, around the one guidewire in a set number of turns is wound and the core material has a C-shaped circular structure with a having an open end, wherein within a gap of this C-shaped core material is a permanent Magnet is arranged. The choke coil according to claim 1, characterized that a circumference of the coil is covered with an insulating material. The choke coil according to claim 1, characterized that the core material consists of an Fe-Si-B-Nb-Cu metal alloy. The choke coil according to claim 1, characterized that the core material consists of several thin layers of a base material is constructed.