JPH04145884A - Multistage system for magnetic material engine - Google Patents

Abstract

PURPOSE:To improve the overall thermal efficiency of a magnetic material engines by using a plurality of magnetic material engines having different operating temperatures and using the exhaust heat of the heating means for one engine having a higher operating temperature as the heating source of the heating means for another engine having a lower operating temperature. CONSTITUTION:A magnetic material is passes through a magnetic field formed by magnetic field impressing means 3 and 7 and the magnetic material or the means 3 and 7 are moved while a temperature difference area between a high- temperature area and low-temperature area is given the magnetic material in the magnetic field in accordance with the Curie temperature of the magnetic material by using a heating means 2 or cooling means 8. Or, a magnet is passed through a magnetic field formed by the means 3 and 7 while the magnet is magnetically shielded by means of a magnetic material and the magnetic or means 3 and 7 are moved while a temperature difference area between as high- temperature area and low-temperature area is given to the magnetic material in accordance with the Curie temperature of the magnetic material in the magnetic field.

Description

DETAILED DESCRIPTION OF THE INVENTION Field of the Invention The present invention relates to a multi-stage system of magnetic engines that converts thermal energy into mechanical energy.

"Conventional technology" The thermal efficiency of the magnetic engine alone was low.

[Problems to be Solved by the Invention] The present invention solves the above-mentioned problems and provides a multi-stage system for a magnetic engine that can improve overall thermal efficiency.
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"Means for solving the problem" 1. Using a plurality of magnetic engines with different operating temperatures, the exhaust heat of the heating means (2) of the magnetic engine (1) with a high operating temperature is transferred to the magnetic engine with a lower operating temperature. A multi-stage system for a magnetic engine, characterized in that the heating source of the heating means (6) of (5) is used as a heating source.

2. Using a plurality of magnetic engines with different operating temperatures, the exhaust heat of the cooling means (8) of the magnetic engine (5) with a low operating temperature is transferred to the cooling means (4) of the magnetic engine (1) with a higher operating temperature. A multi-stage system of a magnetic engine, characterized by having a magnetic material engine as a power source.

"Operation" The magnetic engines currently being devised can be broadly classified as follows.

1. Create a magnetic field with a magnetic field applying means, pass a magnetic material (continuous shape or a shape of magnetic material pieces connected at appropriate intervals) through this magnetic field, and apply heating means or cooling means to the magnetic material in the magnetic field. is used to provide a temperature difference region between a high temperature region and a low temperature region according to the Curie temperature of the magnetic material, and move the magnetic material or the magnetic field applying means.

2. Create a magnetic field with a magnetic field applying means, pass a magnet through this magnetic field with a means of shielding it with a magnetic material, and heat the magnetic material in the magnetic field using a heating means or a cooling means. A temperature difference region between a high temperature region and a low temperature region is provided according to the Curie temperature, and the magnet side or the magnetic field applying means side is moved.

3 The magnets are arranged with polarities that generate magnetic repulsion, and furthermore, a means is taken to shield the magnets with magnetic material between the magnets,
The magnetic material is heated to an arbitrary temperature or higher based on the Curie temperature of the material and cooled to an arbitrary temperature or lower using a heating means or a cooling means, and the magnet is moved (face-to-face movement or lateral movement).

There are the above three types of methods.

Magnetic engines using general ferromagnetic materials, temperature-sensitive magnetic materials such as temperature-sensitive ferrite, and amorphous magnetic materials have been invented as magnetic materials.

Although the thermal energy conversion efficiency of a single magnetic engine is low, if a multi-stage system is constructed using a plurality of magnetic engines using the above-mentioned method, the overall thermal efficiency can be improved.

Embodiment FIG. 1 shows an embodiment of the present invention using two magnetic engines.

"Effects of the Invention" The present invention establishes a multi-stage system for a magnetic engine that has improved overall thermal efficiency.

By selecting the Curie temperature of the magnetic material used, magnetic engines can effectively utilize natural energy such as waste heat from various heat engines, geothermal heat, and solar heat. This is extremely effective in today's world where people want to

[Brief explanation of drawings]

FIG. 1 shows an embodiment of the present invention. (1) is a magnetic engine (2) is heating means (3) means for applying magnetic field (4) is a cooling means (5) is a magnetic engine (6) is heating means (7)・ means for applying magnetic field (8) is a cooling means (9) is a heating source (10) is a cooling source

Claims (1)

[Claims] 1 A plurality of magnetic engines with different operating temperatures are used, and the exhaust heat of the heating means (2) of the magnetic engine (1) with a high operating temperature is transferred to the magnetic engine (2) with a higher operating temperature. A multi-stage system for a magnetic engine, characterized in that the heating source of the heating means (6) of item 5) is used. 2 Using a plurality of magnetic engines with different operating temperatures, the exhaust heat of the cooling means (8) of the magnetic engine (5) with a low operating temperature is transferred to the cooling means (4) of the magnetic engine (1) with a higher operating temperature. ) A multi-stage system for a magnetic engine, characterized in that it is used as a cooling source for a magnetic engine.