JPS63255904A - Magnetic flux transfer wire - Google Patents

Abstract

PURPOSE:To enable transferring magnetic flux for a long distance almost without a loss by perfectly intercepting the leakage of the magnetic flux by a superconducting material layer which covers a core. CONSTITUTION:A superconducting material layer 2 covers around a core 1 which is twisted with ferromagnetic material small diameter wires and a coolant passage 3 covers around the superconducting material layer 2. The superconducting material layer 2 may be installed outside the coolant passage 3. In such a transfer wire, the superconducting material layer 2 has perfect diamagnetic characteristics and no line of magnetic force invades inside, so the magnetic flux in the core 1 is perfectly intercepted against outside and no leakage is generated. This enables transferring without the loss of the magnetic flux even for the long transfer wire.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] This invention relates to a transmission line for transmitting magnetic flux over a long distance.

[Conventional technology]

BACKGROUND ART The idea of transmitting and supplying magnetic flux instead of electricity as a method of transmitting energy to factories and the like has existed for some time. This type of magnetic flux transmission has excellent characteristics as a mechanical transmission state, such as no need for insulation equipment to the ground in the case of high-voltage power transmission, and no risk of electric shock during installation. .

[Problem that the invention seeks to solve]

Transmission of magnetic flux is performed using a magnetic wire as an intermediary with respect to a conductive wire for power transmission. By the way, in power transmission technology, various electrical insulating materials have been developed, and electrical insulating materials with extremely excellent shielding properties are now in practical use, but when it comes to magnetic transmission, there are almost no shielding materials that can reliably shield magnetic flux. It has not been developed yet, and it is impossible to avoid large transmission losses due to magnetic flux leakage during the transmission process.

For this reason, it is almost impossible to put it to practical use as a transmission over long distances, and its use is limited to transmission within limited narrow spaces such as inside transformers and motors. is the current situation.

[Purpose of the invention]

An object of the present invention is to provide a magnetic flux transmission line that can eliminate leakage of magnetic flux during transmission and can efficiently transmit magnetic flux over long distances.

[Means to achieve the purpose]

In order to achieve the above object, the present invention employs a configuration in which a linear core of magnetic material is coated with a superconductor layer.

[Effect]

In the transmission line configured as described above, the superconductor layer has a completely diamagnetic property and no magnetic lines of force penetrate inside, so the magnetic flux inside the core is completely cut off from the outside.
No leakage occurs. Therefore, even if the transmission line becomes long, the magnetic flux can be transmitted without loss. [Embodiments] Hereinafter, embodiments of the present invention will be described based on the accompanying drawings.

FIG. 1 shows a cross section of a magnetic flux transmission line according to the present invention, in which a core 1 is surrounded by a superconductor layer 2, and a coolant passage 3 covers the superconductor layer 2. The superconductor layer 2 described above may be provided outside the coolant passage 3.

The transmission line in E can be used, for example, to transmit alternating magnetic flux, in which case eddy currents 2! In order to prevent loss, it is desirable to use core 1 made of twisted ferromagnetic thin wires. Alternatively, the core 1 can be made into a thin plate shape, and the core 1 can be laminated to form the entire transmission line into a rectangular shape.

Furthermore, if the superconductor N2 is a high-temperature superconductor, the coolant passage 3 can be omitted.

FIG. 2 shows another embodiment, in which a plurality of wires 4 are wired around the core 1 to form a space for the coolant passage 3, and the outside of the wires 4 is covered with a tape-shaped superconductor sheet 2'. It is covered with.

On the other hand, in FIG. 3, the outermost layer is formed of superconductor vibe 2# instead of sheet 2' in FIG. 2.

FIG. 4 shows an example of application of the present invention. For example, a closed loop is formed using the transmission line shown in FIG.
Exposed portions 5.6 are provided at which the core 1 is magnetically exposed. Now, the exposed portions 5.6 each have a coupling coil 7.
8, connect the electric a9 to one coil 7 and the motor 10 to the other coil 8, and operate the power source S. Electrical energy is transmitted to the other coupling coil 8 using the same principle as a transformer. Motor 10 rotates. Note that 11 is a coolant population, and 12 is a coolant outlet.

〔Effect of the invention〕

This invention covers the core with a superconductor layer as described above,
Because the superconductor layer completely blocks magnetic flux leakage, magnetic flux can be transmitted over long distances with almost no loss.

Therefore, by using this, it is possible to provide a new highly efficient mechanical transmission means in place of electrical transmission as described in the prior art.

[Brief explanation of the drawing]

FIG. 1 is a cross-sectional view showing a magnetic flux transmission line according to the present invention, FIGS. 2 and 3 are perspective views showing examples of other transmission lines, and FIG. 4 is an application example using the same transmission line. FIG. 1...Core, 2...Superconductor layer. Patent applicant: Sumitomo Electric Industries, Ltd. Agent: Kama 1) Text 2 Written amendment (, eh,

Claims (1)

[Claims] A magnetic flux transmission line consisting of a linear core of magnetic material coated with a superconductor layer.