JP2022049628A - Electricity generator - Google Patents

Abstract

To provide an electricity generator that is able to generate electricity when wind changes in strength and can be installed on a wall surface or fixed surface of an existing building.SOLUTION: With a coil fixed to one side of a plate and a magnet fixed to one side of the other plate, the two plates are placed having the coil-fixed side and the magnet-fixed side opposed to each other, an elastic body is sandwiched between the two plates at a place different from the place where there is the coil and the place where there is magnet, and two plates are stuck thereupon. The one plate is installed on a wall surface or fixed surface of a building. When blowing wind presses the other plate and then changes in strength, an interval between the two plates is elastically changed to vary the distance between the magnet and coil and the length of the part where the magnet is in the coil, and a current flows through the coil to generate electricity. More electricity can be generated by increasing the numbers of coils and magnets fixed to the plates.SELECTED DRAWING: Figure 5

Description

In the present invention, a coil, a magnet, and an elastic body are sandwiched between two plates, and the two plates are bonded together to elastically change the distance between the plates when the strength of the wind changes when the wind blows. It is related to a generator that can be installed on the wall surface or fixed surface of an existing building, which is devised to generate electricity by making it generate electricity.

Conventionally, as a generator that generates electricity when the wind blows, there has been a wind turbine generator that generates electricity by rotating a rotating plate in which the wings receive the wind. The wind power generator using the wind turbine of the conventional method requires a certain amount of space to be installed, there are many restrictions on the installation place, and noise may be generated to affect the environment. It is also susceptible to typhoons and lightning strikes. It was difficult to set the conditions for installation in any personal environment of the home.

Until now, there was no generator that could generate electricity by changing the spacing between the plates when the wind blew. And, there was no generator of the method of installing a plate on the wall surface of the existing building or the fixed surface of the existing building to generate electricity.

From now on, the use of natural energy as renewable energy will be an important issue in order to prevent global warming. As a generator that converts natural energy into electrical energy, a generator that can be used in various environmental locations is needed. It is an issue that requires a generator that does not require a large installation space, is less likely to generate noise, and is less susceptible to damage from typhoons and lightning strikes. A generator that can be installed using the wall surface or fixed surface of an existing building is a necessary issue. An object of the present invention is to provide a generator that solves these problems.

This generator is made by sandwiching a coil, a magnet, and an elastic body between two plates and pasting the two plates together. The coil is fixed to one side of one plate, the magnet is fixed to one side of the other plate, and the two plates are the surface to which the coil is fixed and the surface to which the magnet is fixed. Place the elastic body between the two plates so that the coil and the magnet face each other, and put the elastic body in a place different from the part where the coil is and the part where the magnet is. Stick the boards together. The elastic body has elasticity, and various materials can be selected. Install one of the boards on the wall or fixed surface of the building. Alternatively, it is fixedly installed independently. When the wind blows, the wind pushes the plate that is not installed on the fixed surface of the building, and when the strength of the wind changes, the distance between the two plates is elastically changed to make a magnet. By changing the distance between the coil and the coil, or by changing the length of the part where the magnet is inside the coil, a current is passed through the coil. When the wind blows, the wind pushes the plate that is not installed on the fixed surface of the building and the distance between the two plates becomes narrower, causing the magnet to approach the coil or enter the coil of the magnet. By changing the length of the part and making it longer, an electric current is passed through the coil to generate electricity, and when the wind becomes weaker than that time, the distance between the two plates becomes wider, and the magnet moves away from the coil. Or, the length of the part inside the coil of the magnet changes and becomes shorter, so that an electric current is passed through the coil to generate electricity. A large amount of electricity is generated by increasing the number of coils and magnets fixed to each of the two plates. The present invention is a generator characterized by the above.

According to the present invention, it is possible to generate electricity by utilizing the change in the strength of the wind pressure, which is a natural energy. According to the present invention, it is possible to increase the chances of converting wind energy, which is natural energy, into electric energy.

The generator of the present invention can be installed on a wall surface or a fixed surface of an existing building to generate electricity, and can be stored in a storage battery to use the stored electricity. It is possible to generate electricity in homes with various personal environments, and the electricity generated in each home can be used directly in each home.

By changing the material and size of the plate, the generator of the present invention can be made into a size suitable for the place where it is installed. The amount of electricity to be generated can be selected by selecting the material, shape, and size of the coil and magnet fixed to each of the two plates and the number thereof. The elastic body to be bonded between the two plates has elasticity, and various materials can be selected, and various positions can be selected for bonding.

If the coil and magnet fixed to each of the two plates are made thin, a thin generator can be made.

To fix the coil to the plate, there is not only a method of attaching it to the plate but also a method of embedding it in the plate. To fix the magnet to the plate, there is not only the method of attaching it to the plate but also the method of embedding it in the plate. A thin generator can be made by embedding a coil and a magnet in a plate.

Perspective view of the present invention Plan view of the present invention Left side view of the present invention (Example) Right side view of the present invention (Example) Sectional view taken along line AA in FIG. 2 (Example) Sectional view taken along line BB in FIG. 3 (Example) Cross-sectional view taken along the line CC in FIG. 4 (Example) Perspective view (Example) in a state where only the coil and the protective cover are attached to one plate.

Hereinafter, embodiments for carrying out the present invention will be described.
In this generator, a coil (7) is fixed to one side of one plate (1). The magnet (8) is fixed to one side of the other plate (2). The two plates (1) and (2) face each other with the surface on which the coil (7) is fixed and the surface on which the magnet (8) is fixed. Position the coil (7) and the magnet (8) so that they face each other, and separate the part with the coil (7) and the part with the magnet (8) between the two plates (1) and (2). The elastic bodies (3), (4), (5), and (6) are sandwiched between the two plates (1) and (2). The surface of the conductor of the coil (7) is insulated, but in order to further protect the conductor of the portion protruding from the coil (7), the conductor of the portion protruding from the coil (7) is covered with a protective cover (9). ) Cover with (10). The two protective covers (9) and (10) are covered with a protective cover (11) to further protect them.

In order to fix the coil (7) to the plate (1), the coil (7) may be attached or attached to the plate (1), or may be embedded in the plate (1). In order to fix the magnet (8) to the plate (2), it may be attached or attached to the plate (2), or it may be embedded in the plate (2). The shape of the coil (7) is not limited to a circular coil, and may be a polygonal coil such as a rectangle. A flat plate coil may be used. The shape of the magnet (8) is not limited to a circle, but may be a polygon such as a rectangle. If the coil (7) and the magnet (8) are made thin, a thin generator can be made. If the coil (7) is embedded in the plate (1) and fixed, and the magnet (8) is embedded in the plate (2) and fixed, a thin generator can be obtained.

If the number of coils (7) and magnets (8) is increased, a large amount of current can be passed. By increasing the number of coils (7) and magnets (8) fixed to each of the two plates (1) and (2), a large amount of electricity can be generated.

When selecting the shape and size of the magnet (8), select the shape and size that the magnet (8) fits inside the coil (7), and select the shape and size that the magnet (8) fits inside the coil (7). There are cases where you select a shape that does not fit in or a size that does not fit in. When selecting the shape and size of the magnet (8) to fit inside the coil (7), the magnet (8) is inside the coil (7) when the two plates (1) and (2) are bonded together. Align the two plates (1) and (2) so that they fit in. The setting of the distance between the two plates (1) and (2) is such that when the wind becomes strong and the distance between the two plates (1) and (2) becomes narrower, the magnet (8) becomes the coil (7). The interval may be set so that the magnet (8) cannot enter the coil (7), or the interval may be set so that the magnet (8) cannot enter the coil (7). When selecting a shape in which the magnet (8) does not fit in the coil (7) or a size that does not fit in the coil (7), when the wind becomes strong and the distance between the two plates (1) and (2) becomes narrower. The distance between the two plates (1) and (2) is set so that the magnet (8) does not come into contact with the coil (7).

Either the plate (1) to which the coil (7) is fixed or the plate (2) to which the magnet (8) is fixed is installed on the wall surface or fixed surface of the building. Alternatively, it is fixedly installed independently.

When the wind blows, the wind pushes the plate that is not installed on the wall surface or fixed surface of the building, and the distance between the two plates (1) and (2) is elastically narrowed. Then, the magnet (8) approaches the coil (7), or the length of the portion of the magnet (8) contained in the coil (7) changes and becomes longer. As a result, electric current can be passed through the coil (7) to generate electricity. When the wind is weaker than that time, the distance between the two plates (1) and (2) is elastically widened. Then, the magnet (8) moves away from the coil (7), or the length of the portion inside the coil (7) of the magnet (8) changes and becomes shorter. As a result, electric current can be passed through the coil (7) to generate electricity. The magnet (8) by elastically changing the distance between the two plates (1) and (2) by using the force of the wind pushing the plate that is not installed on the wall surface or fixed surface of the building. The distance between the coil (7) and the coil (7) is changed, or the length of the portion where the magnet (8) is contained in the coil (7) is changed, and a current is passed through the coil (7) to generate electricity.

The method of using the electricity generated by the present invention is the same as the method of using the electricity generated by the conventional generator. It can be connected from a generator to a rectifier or a storage battery. After storing electricity in the storage battery, electricity can be used in various forms from there.

In this embodiment, one circular coil (7) is attached to one side of one plate (1) without being embedded, and one circular magnet (8) is embedded in one side of the other plate (2). This is the case when it is installed without. The two plates (1) and (2) face each other with the surface on which the coil (7) is fixed and the surface on which the magnet (8) is fixed. Align the coil (7) and the magnet (8) so that they face each other, and separate the part with the coil (7) and the part with the magnet (8) between the two plates (1) and (2). The elastic bodies (3), (4), (5), and (6) are sandwiched between the two plates (1) and (2). The surface of the conductor of the coil (7) is insulated, but in order to further protect the conductor of the portion protruding from the coil (7), the conductor of the portion protruding from the coil (7) is covered with a protective cover (9). ) Cover with (10). The two protective covers (9) and (10) are covered with a protective cover (11) to further protect them.

The plate (1) to which the coil (7) is attached is installed on the wall surface of the building.

When the wind blows, the wind pushes the plate (2) to which the magnet (8) is attached, and the distance between the two plates (1) and (2) is elastically narrowed. Then, the magnet (8) approaches the coil (7), or the length of the portion of the magnet (8) contained in the coil (7) changes and becomes longer. As a result, electric current can be passed through the coil (7) to generate electricity. When the wind is weaker than that time, the distance between the two plates (1) and (2) is elastically widened. Then, the magnet (8) moves away from the coil (7), or the length of the portion inside the coil (7) of the magnet (8) changes and becomes shorter. As a result, electric current can be passed through the coil (7) to generate electricity. The distance between the magnet (8) and the coil (7) is changed by elastically changing the distance between the two plates (1) and (2) by using the force that the wind pushes the plate (2). Alternatively, the length of the portion where the magnet (8) is contained in the coil (7) is changed, and a current is passed through the coil (7) to generate electricity.

FIG. 3 is a left side view of the embodiment, and FIG. 4 is a right side view of the embodiment. FIG. 5 is a cross-sectional view taken along the line AA in the case of the embodiment in FIG. FIG. 6 is a cross-sectional view taken along the line BB in FIG. FIG. 7 is a sectional view taken along line CC in FIG. FIG. 8 is a perspective view of an embodiment in a state where only the coil and the protective cover are attached to one of the plates.

1 Plate with a fixed coil 2 Plate with a fixed magnet 3 Elastic body on the top surface 4 Elastic body on the bottom surface Elastic body on the left side 6 Elastic body on the right side 7 Coil 8 Magnet 9 Protective cover 10 Protecting the conducting wire Protective cover 11 Protective cover that protects conductors Protective cover that protects 9 and 10

Claims (1)

The coil is fixed to one side of the plate, the magnet is fixed to one side of the other plate, and the two plates face each other with the surface where the coil is fixed and the surface where the magnet is fixed. An elastic body is sandwiched between the plates in a place with a coil and a place with a magnet, and two plates are attached to this, and one plate is fixed to the building and installed. When the wind blows, the wind pushes the other plate and the distance between the two plates becomes narrower, so that the magnet approaches the coil and the length of the part inside the magnet's coil changes and becomes longer. As a result, when an electric current is passed through the coil to generate electricity and the wind becomes weaker than at that time, the distance between the two plates becomes wider, so that the magnet moves away from the coil or enters the magnet coil. A generator characterized by passing an electric current through a coil to generate electricity by changing the length of the magnet and shortening it.

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