A horizontal rotating wind power generator.
A horizontal rotor-based wind power generator with a pyramid design and centrifugal force mechanism addresses the challenge of installing and maintaining power generation on houses, ensuring consistent electricity production and safety, even in harsh weather.
Patent Information
- Authority / Receiving Office
- JP · JP
- Patent Type
- Applications
- Current Assignee / Owner
- 宫泽胜次
- Filing Date
- 2024-12-12
- Publication Date
- 2026-06-24
AI Technical Summary
Conventional power generation methods like hydropower, nuclear power, and vertical rotation are large-scale and difficult to install on houses, while solar power generation is limited by weather conditions, making it challenging to generate electricity consistently at home.
A horizontal rotor-based wind power generator with a pyramid-shaped design that incorporates a centrifugal force mechanism to open and close the rotor blades, minimizing wind resistance and damage, and is equipped with safety features to operate in various weather conditions, generating electricity even in weak winds.
The device generates electricity consistently and safely, even in adverse weather, and can be installed on houses or land, providing a semi-permanent power source with the option to sell excess electricity or charge batteries.
Smart Images

Figure 2026103774000001_ABST
Abstract
Description
Technical Field
[0004] ,
[0001] This device uses wind to install a propeller spinner on the upper part of the device to prevent snowfall, and installs a mechanism on the lower surface of the wind-receiving rotor attached horizontally to the ground that can vary the opening and closing of the upper surface of the rotor by the centrifugal force of rotation during strong winds. The power generation device of this device is a device that houses the power generation device in a pyramid shape with little influence from wind and can be attached to the roof of a house.
Background Art
[0002] Conventional power generation is carried out by means such as hydropower, nuclear power plants, solar power, and vertical rotation. However, all of them are large-scale power generation, and it is difficult to install a power generation device on a house except for solar power. Therefore, it is a device that applies the centrifugal force of a rotor with a horizontal rotor attached, and the upper surface of the rotor incorporates an opening and closing device according to the strength of the wind. The power generation device is a pyramid-shaped device that minimizes the influence of wind as a whole and takes into account the burden on the house. Also, the generated electricity is led to the ground, stored in a lithium-ion battery or the like, and transformed to an appropriate voltage by an inverter or the like for use.
Disclosure of the Invention
[0003] This device uses an appropriate number of horizontal rotors to perform horizontal rotation, and the rotor opens and closes according to the strength of the wind due to the strength of the rotation, making it less susceptible to strong winds. In particular, an appropriate cut is made at an appropriate position on the upper surface of the wind-receiving part with an appropriate width and appropriate depth, and the cut is slid by centrifugal force, and the upper surface is opened and closed from the hinge by centrifugal force. The opening and closing device attaches the hinge to the lower surface of the wind-receiving rotor, attaches a weight of appropriate weight below it, and operates it by centrifugal force according to the strength of the wind. The generator uses an alternator and is driven by a large gear and a chain for utilization.
[0004] This device uses the rotational force generated by a rotor to attach a disc to the bottom of a shaft. A suitable alternator is wound around the disc, and a suitable number of coils capable of generating electricity even in weak winds are attached. The generator is housed in a pyramidal structure, minimizing the overall height to make it suitable for use in houses and other buildings.
[0005] By attaching safety pipes or similar devices to the tips of the rotor blades to protect them from the effects of work or sudden gusts of wind, it is expected that the rotor blades will be preserved and damage will be reduced.
[0006] The rotor blades of this device are attached to the mounting plate with the appropriate number of blades using appropriate screws and nuts to facilitate maintenance.
[0007] The rotor blade is constructed by creating a right-angle rise on a horizontal plate and then machining the top plate to a 45-degree angle as shown in Figure 4. Each is connected with an appropriate hinge, ensuring that the top plate does not exceed 45 degrees.
[0008] The mechanism for opening and closing the wind-receiving area of the rotor blades is as shown in Figure 4. Metal fittings are attached to the lower plate at the tip of the blade, and also to the upper plate. A weight fitting that moves with centrifugal force is also attached (see Figure 4), and a mechanism is installed that opens and closes depending on the strength of the wind.
[0009] The device to be installed on top of the roof tiles of a house will be installed in an appropriate location on the house, and the rotation shaft will be shaped to minimize the influence of height, taking into account the effects of natural wind as much as possible. This is the problem the utility model aims to solve.
[0012] Traditionally, home solar power systems are installed in locations on the house that receive sunlight, but they cannot generate electricity when it is snowing, cloudy, raining, or at night.
[0013] This device provides a windbreak for all rotor blades even in extremely light winds, regardless of weather conditions. The device can be installed with hinges to generate electricity, and furthermore, the device is lightweight and unlikely to damage the roof of a house. In addition, the device is semi-permanent and can generate electricity indefinitely. The upper wing is attached to the lower wing, which has a right-angle cross-section, and the wing is constructed at a 135-degree angle, always taking weather conditions into consideration.
[0014] This device allows for power generation even in weak winds by optimizing the size of the power generation device's disk relative to the diameter of the rotor blades.
[0015] A propeller spinner is attached to the upper surface of the rotor blade for equipment preservation, and a safety pipe is attached to the outer circumference of the rotor blade to prevent accidents during repair work.
[0016] The installation of this device involves first attaching a base that fits the installation location, then mounting the device to that base, and guiding the generated electricity through a cord to the charging device. This is a means of solving the problem.
[0017] This device can be installed on land other than residential areas, with each pyramidal unit at a different height to avoid interference from the rotor blades. This allows for the installation of many units relative to the land area, and significant power generation can be expected on a full-time basis.
[0018] Because this device is horizontal, many power generation units can be installed in a limited area.
[0019] The rotor blades of this device have different cross-sectional shapes on the top and bottom surfaces, making it a device that is less prone to snowfall and thus suitable for use in snowy regions.
[0020] The wind-catching area of the rotor blades opens and closes when there is a strong wind, as centrifugal force moves the weight outwards, simultaneously narrowing the upper surface of the rotor blades and creating a cap that prevents excessive rotation due to the strong wind. The opening and closing mechanism involves attaching a hinge to the appropriate position on the underside of the rotor blade, and then attaching a device to the underside of that hinge that moves outward due to centrifugal force. When the rotation speed increases, this device moves outward, and this action causes the opening and closing mechanism to move up and down. This allows the mechanism to operate when there is a certain degree of rotation speed. Best form for implementing a utility model
[0021] This device, when installed on the roof of a house, can generate electricity which can then be sold to the power company or used for self-consumption. It can also be used effectively by charging a suitable rechargeable battery. Convert to alternating current with a suitable transformer for self-consumption.
[0022] The power generation device can effectively generate electricity with the wind-powered horizontal generator using an alternator. Above availability
[0023] If this device is installed on the land one owns as much as possible, the generated electricity can be sold to the power company.
[0024] The electricity generated on the roof of a house or the like can be sold to the power company. It is also possible to charge an electric vehicle and at the same time use it as household electricity.
Brief description of the drawings
Explanation of reference numerals
[0025] 1 Propeller spinner to prevent snowfall 2 Rotor blade 3 Opening and closing device on the upper surface of the rotor blade 4 Pyramid-shaped device equipped with a wind power generation device 5 Pedestal for mounting the wind power generation device 6 Safety pipe attached to the outer periphery of the rotor blade 7 Pedestal for mounting all devices 8 Centrifugal force opening and closing device for opening and closing the upper surface of the wind-receiving part of the rotor blade near the thatched tiles near the top of the house
Claims
1. (Claim 1) To generate electricity, put a gear of the appropriate size inside the main body, extend a shaft of the appropriate length to rotate the gears, create a screw of the appropriate thickness, and attach an appropriate number of rotating blades to a base that can be removed for moving the main body, and make a mechanism that allows attachment and detachment to this base. Equipped with an appropriate number of rotor blades for generating electricity, fitted with mounting brackets for fixing the rotor blades, and positioned on the upper surface of the rotor blades that rotate horizontally with a predetermined wind force at a predetermined position A device is provided in which a notch having a predetermined width and depth is made, a hinge is attached to the lower surface of the rotor blade, a weight of a predetermined weight is attached below the hinge, the weight moves outward by centrifugal force, the upper surface opens and closes from the hinge, the wind-receiving area of the rotor blade is increased, and an appropriate spring is attached to the inside of the rotor blade so that the upper surface of the rotor blade opens when no centrifugal force is acting on the inside of the rotor blade, the device being characterized in that a spring, which is a centrifugal force mechanism, is attached to all of the rotating propellers.
2. The claimed device is characterized by having a propeller spinner attached to the center of the rotor blade to protect against snowfall and other elements, and further by having the vinyl socket attached to the front tip of the rotor blade and mounted in a circular shape with the vinyl pipe to prevent injury to outsiders.
3. When this device is installed on a roof or similar surface, it is designed to prevent movement by securing it in place with wire ropes at appropriate positions on fittings attached to the outside of the device, with two sets of fittings on the front and two sets on the opposite side.