JPH0328902B2 - - Google Patents

Description

[Detailed Description of the Invention] [Technical Field of the Invention] The present invention relates to a mounting structure for a flywheel power supply device,
In particular, the present invention relates to a mounting structure for a flywheel power supply in which the flywheel power supply is held at at least three points and is provided with adjustable connectors at each of these points.

[Prior art]

Conventionally, a flywheel power supply device has been proposed in place of a battery as a device for compensating for a power outage accident. This flywheel power supply device houses a flywheel inside a cylindrical casing that is a vacuum sealed container, and a magnet is installed above the flywheel to magnetically support the casing without contact with the magnet provided in the casing. The flywheel is rotatable around a bearing such as a pivot provided at the bottom of the flywheel. The outer periphery of the lower part of this flywheel extends downward to form a rotor, and a magnet is provided inside this rotor, and an iron core and a winding wire corresponding to the magnet are provided inside the rotor. A stator and a stator frame for holding the stator are provided. The magnet, stator, and stator frame constitute a generator motor section. With such a configuration, the flywheel power supply device acts as a synchronous generator. That is, under normal conditions, when a voltage is applied to the stator windings from an external power source, the rotor rotates and the flywheel rotates at high speed, thereby accumulating energy. Next, in the event of an abnormal power outage of the external power source, the rotational energy stored in the flywheel and rotor acts as a generator that supplies power to a load such as a computer.

The flywheel power supply device, which operates as described above, has a casing installed near the load side of a computer, etc., in case of an abnormal power outage. It was designed to be fixed directly to the bottom plate with bolts, etc.

However, according to the conventional mounting structure of the flywheel power supply device as described above, the mechanical center of the flywheel differs from the rotational center of the flywheel due to the dimensional tolerance of the flywheel when assembling the flywheel power supply device. This had the disadvantage of significantly reducing rotational performance.

[Summary of the invention]

The present invention was provided in order to eliminate the above-mentioned drawbacks of the conventional art, and includes holding a flywheel power supply device at three points, and providing vertically adjustable connectors at each of these points. A detailed explanation will be given below using examples.

[Embodiments of the invention]

1 and 2 are a partially cutaway sectional view and a plan view showing an embodiment of a mounting structure for a flywheel power supply device according to the present invention. In the figure, a flywheel power supply device 1 is comprised of a cylindrical casing 2 whose interior is a vacuum-tight container, and a cylindrical flywheel 3 housed within the casing 2. The lower part of the outer circumferential side of the flywheel 3 falls down to form a rotor 5 having a recess 4.
A magnet 6 is provided within this recess 4. The center of the bottom plate of the casing 2 is a support part 7 that stands up in a cylindrical shape, and an elongated hole 8 provided at the center of the support part 7 rotatably supports the rotation center shaft 9 of the flywheel 3. ing. Also,
An iron core 10 having a winding wound around the outer periphery of the support portion 7
is provided. A disk-shaped upper support part 11 is formed at the center of the upper surface of the flywheel 3, and a magnet 12 attached to the upper support part 11 is provided at the center of the lower surface of the upper plate of the casing 2. The position is set magnetically without contact with the magnet 14 attached to the disc portion 13. The flywheel power supply device 1 configured as described above has holes 21 formed in the holding portion 20 at three locations on the lower side of the casing 2 and provided at equal intervals on the circumference.
A connecting tool 24, 2 consisting of a strut 22 that passes through the strut 22, and a tightening screw (nut) that threads into a threaded portion 23 formed over almost the entire length of the outer periphery of the strut 22.
5, it is fixed to a fixed part 26 such as a box body or a floor surface. In the above configuration, to explain how to attach the flywheel power supply device 1, the connecting tool 25 is attached to the support 22 whose lower end is fixed to the fixed part 26.
are screwed together to determine the vertical positional relationship in advance, and the holes 21 of the holding part 20 fixed to the three lower ends of the casing 2 are fitted into the pillars 22, and the pillars 22 protruding from the upper surface of the holding part 20 are fitted. Screw together the connecting tool 24 and tighten. Next, place a spirit level etc. on the casing 2 and connect the three pillars 22 to the connecting tool 2.
By moving the screwed state of 4 and 25 up and down, the flywheel power supply device can be installed in a horizontal state, and the mechanical center of the flywheel 3 and the center of rotation can be made to coincide. In this case, first place a spirit level on the casing 2 between the adjacent holding parts 20, 20, adjust the level of these two holding parts, and then use either of the adjusted holding parts as a reference. Since it is only necessary to adjust the horizontal level of the other holding part, it is only necessary to adjust the level twice, and the horizontal adjustment can be easily performed.

In addition, in the above embodiment, the holding parts 20 are explained as being provided in three places on the outer circumference of the casing 2 at equal intervals, but the present invention is not limited to this, and as long as the holding parts 20 are provided in three places on the outer circumference of the casing 2. good.

〔Effect of the invention〕

As explained above, according to the mounting structure of the flywheel power supply device according to the present invention, the holding portion is provided at three locations on the outer periphery of the lower side of the casing and has holes, and the holding portion is inserted into the hole and is attached to the outer periphery. Consisting of a strut that has threaded portions extending over almost the entire length in the length direction and holds the flywheel power supply device at three points, and a connecting tool that is located on the upper and lower surfaces of the holding portion and consists of a nut that is screwed onto the strut. As a result, the flywheel power supply can be installed horizontally, which allows the mechanical center of the flywheel to match the rotational center, improving the rotational performance of the flywheel and providing a reliable flywheel power supply. equipment can be provided. Additionally, since it is supported at three points, horizontal adjustment can be easily performed.

[Brief explanation of drawings]

1 and 2 are a partially cutaway sectional view and a plan view showing an embodiment of a mounting structure for a flywheel power supply device according to the present invention. DESCRIPTION OF SYMBOLS 1... Flywheel power supply device, 3... Flywheel, 5... Rotor, 6... Magnet, 10... Iron core, 20... Holding part, 22... Support column, 24, 25... Connector.

Claims (1)

[Scope of Claims] 1. A mounting structure for a flywheel power supply device comprising a casing equipped with a generator-motor section that applies rotational force to the flywheel and converts the rotational force into electrical energy, wherein: a holding portion provided at three locations and having holes; a support that is inserted into the hole and has a threaded portion extending over almost the entire length of the outer periphery to hold the flywheel power supply device at three points; A mounting structure for a flywheel power supply device comprising a connecting tool consisting of a nut located on the upper and lower surfaces of the holding part and screwed onto the support.