JP2011220539A - Self-generating type electric boiler - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a self-generating type electric boiler in which a power generating device that requires no fuel is mounted.SOLUTION: A boiler tank 2 is provided with a bucket conveyer 4, in which water is sufficiently reserved and heated. Before long, a steam is generated by an electric power heat source 3, and the steam plays a role of buoyancy to be a motive power for a bucket conveyer 4, rotating a shaft of a power generating motor 1. Here, the generated electric power is used for a boiler to heat the boiler tank 2, for operating the power generating motor 1 by utilizing buoyancy of the steam. When the power generating motor 1 fully operates, the electric power used for the electric power heat source 3 is sufficiently generated, establishing a circulation from buoyancy to electric power as well as from electric power to buoyancy.

Description

    The present invention relates to an electric boiler having a power generation function.

    A conventional boiler device is a device that heats water, creates hot water, and generates steam. However, there is a boiler that heats water with electric power.

    Boiler devices that are heated by electric power are not limited to industrial use, but are also popular for general household use. Electric boilers that are popular in households are also called “electric water heaters” and can be used for baths or for heating.

Tanishita, Ichimatsu “Steam Engineering”, Hankabo Publishing, 1989

    In order to heat the water in the boiler, electric power is required, and the electric power is heated by the electric power supplied by the electric power company. However, since the supplied electric power requires fuel, the price for exhaust gas, waste, fuel cost and water heating is high. In order to solve this problem, it is necessary to attach a power generation device to the boiler and create a mechanism to generate power with heating.

    In the present invention, water is stored in a boiler tank, a bucket conveyor is installed, steam in the boiler tank is taken in as buoyancy, converted into power for a generator, and supplied with electric power.

    The self-powered electric boiler of the present invention has the advantages that no fuel is required, no exhaust gas is discharged, no waste is generated, and no fuel is required. Furthermore, since steam becomes the power for the steam turbine, it has the potential to provide more energy.

FIG. 1 is a view showing the entire self-powered electric boiler of the present invention.

    Hereinafter, the present invention will be described with reference to FIG. However, the dimensions, materials, shapes, relative arrangements, and the like of the components described in this embodiment are not intended to limit the scope of the present invention unless otherwise specified, but are merely illustrative examples. Not too much.

    The power generation motor 1 is prepared for supplying power to the self-generating electric boiler of the present invention. With the power generation motor 1, the boiler tank 2 can be heated without relying on fuel or gas.

    The boiler tank 2 is prepared for the purpose of installing the conveyor bucket 4 of the present invention and storing water. By having the boiler tank 2, water is accumulated in the boiler tank 2, vapor generated from the electric power heat source 3 is generated, and the foamed bubbles push up the conveyor bucket 4 to rotate the shaft connected to the power generation motor 1. I can do it.

    The electric power heat source 3 is prepared for heating the water of the present invention. The presence of the electric power heat source 3 makes it possible to heat the boiler tank 2 without using thermal power.

    The conveyor bucket 4 is prepared for taking in buoyancy from the steam of the present invention. The water heated in the boiler tank 2 eventually reaches the boiling point and begins to float as steam. The rising steam is received by the conveyor bucket 4 and the shaft for transmitting power to the power generation motor 1 is rotated.

    The overall view shown in FIG. 1 is the overall configuration given in claims 1 and 2. The power generated by the power generation motor 1 is transmitted to the power heat source 3 and the water in the boiler tank 2 is continuously heated. When the heating is continued, the vapor evaporated from the electric power heat source 3 generates buoyancy toward the upper side of the boiler tank 2. The conveyor bucket 4 receives the upward steam and rotates the shaft of the power generation motor 1. As a result, electric power is generated by the generation of steam, and if power is generated, steam continues to be generated and can be circulated.

    The purpose of the present invention shown in FIG. 1 is to enable in-house power generation, but since the water in the boiler tank is at room temperature during the initial operation, energy for heating is required. For this, electric power is supplied from other sources (solar, wind, or hydropower), or a heat source using thermal power is required. However, if the heat necessary for operation is provided with electric power, it will be possible to continue operation regardless of day or night.

  The present invention is not limited to the embodiments described above.

    Although the present invention is a self-powered electric boiler, the boiler can be used for various purposes, and in addition to the conventional method of use, it is possible to change to the power of a steam turbine used for thermal power generation or nuclear power generation. Because power can be obtained, it has the potential to become a device that can change the propulsion power of ships.

1 Motor for power generation 2 Boiler tank 3 Electric power source 4 Bucket conveyor

Claims (2)

    A self-generating electric boiler that has a heat source that generates heat by electric power in the boiler tank, and the electric power used for the heat source is generated by a device installed in the boiler.     The self-generating electric boiler according to claim 1, wherein steam is received by a bucket conveyor installed in the boiler tank, and the buoyancy of the steam in the liquid is changed to energy for power generation.