KR101850643B1 - Litz wire terminal for wireless charging power supply device - Google Patents

Abstract

A litz wire terminal for a wireless charging feeding device comprises: a litz wire having a plurality of wire bundles inside a sheath; and a terminal block having a plurality of bonding grooves to which the plurality of wire bundles are respectively connected. The litz wire terminal for a wireless charging feeding device can prevent efficiency degradation due to a high frequency skin effect and can prevent increase in resistance and heat generation.

Description

Technical Field [0001] The present invention relates to a Litz wire terminal for a wireless rechargeable power supply device,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a Litz wire terminal for a wireless charging and feeding device, and more particularly to a Litz wire terminal for disconnecting and connecting a bundle of Litz wires.

Recently, due to the strengthening of environmental regulations, the development of electric power related technologies and battery technologies, there is a demand for technologies for utilization of electric power in all vehicles including automobiles, light rail, and train. In addition, there is a demand for a battery charging technology and a wireless charging technique that combines convenience and safety in wired charging using existing cables.

The wireless charging technology uses magnetic induction method using the magnetic induction phenomenon between the primary coil and the secondary coil of the transformer, magnetic resonance method and electromagnetic wave method in which the magnetic resonance is transmitted using the frequency of several MHz to several tens MHz, .

Recently, wireless charging technology has gradually been applied to trains and vehicles using electric vehicles, rails or tracks based on convenience and safety, and is rapidly spreading.

Meanwhile, the RITZ wire is a core component of the wireless charging technology, and is a copper wire formed by winding a wire at a constant pitch and used in a high frequency device. The Litz wire suppresses the increase of the AC resistance due to the skin effect and the proximity effect peculiar to the high frequency, and prevents the temperature of the coil from rising. Further, the Litz wire is flexible and excellent in winding workability. The Litz wire can be arbitrarily selected for the pitch, the diameter, and the player to be wound.

In order to overcome the high-frequency skin effect, the Litz wire is coated with enamel on the individual wire. However, when the Litz wire is connected, the individual bundles of wire bundles are connected to the terminal block, resulting in a reduction in efficiency, an increase in resistance, and heat generation due to the high frequency effect.

SUMMARY OF THE INVENTION The present invention has been conceived to solve the conventional problems, and it is an object of the present invention to provide a wire harness for wire harnesses, To a Litz wire terminal for a rechargeable power supply device.

In addition, the present invention relates to a Litz wire terminal for a wireless charging / dispensing device that prevents a skin effect due to high frequency by increasing the cross-sectional surface area of a wire portion during termination of the termination of the Litz wire.

In addition, the present invention relates to a Litz wire terminal for a wireless charging power supply device, which prevents individual resistances of the enamel resin coating from increasing the resistance by connecting individual element bundles of the Litz wire individually at terminal end processing of the Litz wire.

In addition, the present invention relates to a Litz wire terminal for a wireless charging feeder in which each element bundle of the Litz wire is separately connected to each other to increase the cross-sectional area of the Litz wire to reduce the heat generation during terminal termination of the Litz wire.

A Litz wire terminal for a wireless rechargeable power supply device according to the present invention will be described.

A Litz wire terminal for a wireless charging and feeding device may include a terminal block having a plurality of wire harnesses having a plurality of wire bundles inside a sheath and a plurality of connecting grooves through which the plurality of wire bundles are individually connected.

According to one aspect of the present invention, the terminal block may have a cross-sectional area of 2 to 3 times the width of the cross-sectional area of the Litz wire.

According to one aspect of the present invention, the plurality of coupling grooves are opened at predetermined intervals on one surface of the terminal block, thereby increasing the cross-sectional area of the plurality of element bundles individually connected.

According to the present invention, the present invention has been conceived in order to solve the conventional problems, and it is an object of the present invention to provide a wire harness for a wire harness, The characteristics can be conserved.

Further, at the end of termination of the Litz wire, it is possible to prevent the skin effect due to the high frequency by increasing the cross-sectional surface area of the wire.

Further, at the terminal end of the Litz wire, each strand bundle of the Litz wire can be individually connected to prevent the resistive component of the enamel resin coating from increasing the resistance.

Further, at the end processing of the terminal end of the Litz wire, the individual element bundles of the Litz wire can be individually connected to increase the cross-sectional area of the connecting part to reduce the heat generation.

1 is a front view schematically showing a wiring scheme of a Litz wire terminal for a wireless charging power supply device.
2 is a side view schematically showing a wiring scheme of a Litz wire terminal for a wireless rechargeable power supply device.

Hereinafter, embodiments will be described in detail with reference to exemplary drawings. It should be noted that, in adding reference numerals to the constituent elements of the drawings, the same constituent elements are denoted by the same reference symbols as possible even if they are shown in different drawings. In the following description of the embodiments, detailed description of known functions and configurations incorporated herein will be omitted when it may make the best of an understanding clear.

In describing the components of the embodiment, terms such as first, second, A, B, (a), and (b) may be used. These terms are intended to distinguish the constituent elements from other constituent elements, and the terms do not limit the nature, order or order of the constituent elements. When a component is described as being "connected", "coupled", or "connected" to another component, the component may be directly connected or connected to the other component, Quot; may be "connected," "coupled," or "connected. &Quot;

FIG. 1 is a front view schematically showing a wiring scheme of a Litz wire terminal for a wireless charging power supply device, and FIG. 2 is a side view schematically showing a wiring scheme of a Litz wire terminal for a wireless charging power supply device.

1 and 2, a Litz wire terminal 1 for a wireless charging and feeding device is a device for connecting the terminal block 10 to a wireless charging and feeding device by connecting the Litz wire 40 to the terminal block 10 . The Litz wire terminal 1 for the wireless rechargeable power feeding device is composed of the terminal block 10 and the Litz wire 40.

The terminal block 10 is connected to the Litz wire 40 and connected to the wireless rechargeable power supply device. The terminal block 10 may include at least one metal material selected from the group consisting of silver, copper, gold, chromium, aluminum, and nickel having a low electrical resistance and high conduction efficiency. When the terminal block 10 is formed of gold or silver, it is preferable that the manufacturing cost is increased and the material of the Litz wire 40 is made of copper, so that it is formed of a copper material having a high conduction efficiency.

The terminal block 10 is formed in a plate shape. For example, the terminal block 10 may be in the form of a flat plate having a rectangular cross section.

In this embodiment, the terminal block 10 is shown as a flat plate having a rectangular cross section, but the present invention is not limited thereto. An inverter, a separate terminal block, or the like, to which the terminal block 10 to be connected to the Litz wire 40 is coupled.

The terminal block 10 may form a plurality of coupling grooves 20 through which a plurality of strand bundles 30 of the Litz wire 40 are connected individually.

The plurality of coupling grooves 20 increase the cross-sectional area of the plurality of strand bundles 30, which are opened at predetermined intervals on one surface of the terminal block 10 and are individually connected. Therefore, it is preferable that the width of the cross section of the terminal block 10 is formed to have a cross-sectional area that is two to three times as large as that of the cross-section of the Litz wire 40. The terminal block 10 connected to the Litz wire 40 made of 36 strand bundles 30 having a diameter of 0.04 mm has a width of 0.045 mm 2 because the width of the cross section of the Litz wire 40 is 0.045 mm 2 . In addition, the coupling grooves 20 may be formed in the same number as the number of the strands.

The plurality of engaging grooves 20 are opened at predetermined intervals to accommodate the strand bundles 30 of the Litz wire 40 and can be connected by filling the inside of the engaging groove with solder. The plurality of coupling grooves 20 may be formed as an opening so as to penetrate through the strand bundle 30 of the Litz wire 40 and fill the inside of the coupling groove 20 with wiring.

The stripping soldering length of the strand bundle coupled to the plurality of coupling grooves 20 may be 0.8 mm to 2 mm. Therefore, when the plurality of coupling grooves 20 are opened at predetermined intervals to form the accommodation space, the depth of the plurality of coupling grooves 20 preferably has a depth of 0.8 mm to 2 mm. On the other hand, when the plurality of coupling grooves 20 are formed to penetrate and are formed as openings, it is preferable that the thickness of the terminal block 10 is 0.8 mm to 2 mm or more.

It is preferable that the diameter of the plurality of coupling grooves 20 is formed larger than the thickness of the strand bundle 30. Therefore, it is preferable that the plurality of engaging grooves 20 are formed with a diameter of 0.06 mm to 0.3 mm, since the diameter of the firing bundle 30 generally forms a diameter of 0.03 mm to 0.1 mm.

The terminal block 10 is formed by connecting the individual strand bundles 30 individually to increase the cross-sectional area of the strand bundle 30 so as to divide the flow of each current, The effect can be prevented. Therefore, the terminal block 10 is reduced in heat generation, increased in cross-sectional area, and can be effective in radiating heat. Here, it is preferable that the terminal block 10 is made of a copper material having excellent thermal conductivity and low cost.

The Litz wire 40 connected to the terminal block 10 is a wire in which each strand bundle 30 is coated with an enamel of a very fine line. The diameter of the strand bundle 30 of the Litz wire 40 may be 0.03 mm to 0.10 mm. The Litz wire 40 is a copper wire formed by winding the strand bundle 30 at a predetermined pitch and is used in a high frequency device. The Litz wire 40 suppresses the increase of the AC resistance due to the skin effect and the proximity effect peculiar to the high frequency and prevents the rise of the temperature of the coil. Further, the Litz wire 40 is flexible and excellent in winding workability. The Litz wire 40 can be arbitrarily selected for the pitch, the diameter, and the player to be wound.

The Litz wire 40 can be used for a hearing aid, an ultrasonic generator, a proximity switch, a high-frequency transformer, a high-frequency coil, an inverter, a heating device, Therefore, it is preferable to use the Litz wire 40 as the electric wire used in the wireless rechargeable power supply device.

However, in the case of forming the wiring portion of the Litz wire 40, it is general that the strand bundle 30 of the Litz wire 40 is connected to the terminal block 10 by one. Therefore, a skin effect and a proximity effect peculiar to high frequency are generated in the connection portion of the Litz wire 40.

The skin effect refers to the property that the electric current flows around the outer periphery of the wire. However, when a high frequency noise of 1 kHz to 1.5 kHz is generated, the induced reactance of the electric wire is increased so that the electric charge is further transferred to the outer periphery of the electric wire, resulting in an effect of reducing the use cross section of the electric wire. This is because, due to the high frequency, the electric charge is concentrated to the outside in the electric wire to generate the friction energy, i.e., heat, and the generated heat is dissipated through the electric wire covering. In the case of materials such as plastics, where the coating is a long-lasting heat dissipation, the life of the wires may be reduced.

The proximity effect is a phenomenon in which the magnetic field is transmitted from one elementary wire to another adjacent elementary wire. If there is a high-frequency noise, the noise is transmitted to each of the elemental wires, resulting in an imbalance of the magnetic fields between the elemental wires. Such proximity effect causes the load to be inadequately operated if the current on the wire line is different, and it lowers the power factor and efficiency. Therefore, the proximity effect occurs even when the arrangement of the wires is changed or the conductor of the wire is curved. This proximity effect can cause resistance loss by increasing the AC resistance of the wire.

When the strand bundles 30 of the Litz wire 40 are connected together by the skin effect and the proximity effect, the efficiency of the power distribution system is lowered due to heat generation. In addition, a resistance loss may occur and the wire connecting portion may be loosened to generate an arc, which may cause a fire. In addition, in general, the Litz wire 40 is connected by soldering. If an arc is generated, the heat due to the arc generation may be increased to 982 ° C, so that soldering may melt to cause disconnection.

Therefore, by connecting the strand bundles 30 of the Litz wire 40 individually to the terminal block 10, the skin effect and the proximity effect are prevented.

When the conventional Litz wire 40 is coupled to the terminal block 10, a plurality of strand bundles 30 of the Litz wire 40 are combined at one time, and the enamel resin coated on each strand is not removed More resistance could be caused by the combined enamel resin. However, since the Litz wire terminal 1 according to the embodiment connects each strand bundle 30 of the Litz wire 40 to the engaging groove 20, the enamel resin coated on the strand bundle 30 is removed, The resistance of the wiring portion can be reduced.

SUMMARY OF THE INVENTION The present invention has been made to solve the conventional problems, and it is an object of the present invention to provide a wire harness for a wire harness, The characteristics can be conserved.

Further, at the end of termination of the Litz wire, it is possible to prevent the skin effect due to the high frequency by increasing the cross-sectional surface area of the wire.

Further, at the terminal end of the Litz wire, each strand bundle of the Litz wire can be individually connected to prevent the resistive component of the enamel resin coating from increasing the resistance.

Further, at the end processing of the terminal end of the Litz wire, the individual element bundles of the Litz wire can be individually connected to increase the cross-sectional area of the connecting part to reduce the heat generation.

Although the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, And various modifications and changes may be made thereto without departing from the scope of the present invention. Accordingly, the spirit of the present invention should not be construed as being limited to the embodiments described, and all of the equivalents or equivalents of the claims, as well as the following claims, belong to the scope of the present invention .

1: Litz wire terminal for wireless charging feeder
10: Terminal block
20: Coupling groove
30: A bundle of wire
40: Litz wire

Claims (3)

A Litz wire having a plurality of strand bundles in a cloth; And
And a plurality of connection grooves that are opened at predetermined intervals on one surface of the plurality of strand bundles and are connected to each other so that the plurality of strand bundles are individually connected to each other, Terminal block connecting to the device;
And a ground terminal for connecting the ground terminal to the ground terminal. The method according to claim 1,
Wherein,
Wherein the cross-sectional area is formed to be 2 to 3 times the cross-sectional area of the Ritz wire.

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