JPS60223500A - Mounting method of flywheel power source - Google Patents

Abstract

PURPOSE:To prevent a substrate from deflecting due to the vibration of a flywheel at the rotating time by mounting a flywheel power source having a generator motor directly on the bottom of a containing box. CONSTITUTION:Struts 13 are secured to arbitrary positions of the bottom 20 of a containing box 11, threaded portions 21 are formed at the posts 13, and a connecting implements 17 are engaged with the portions 21. Then, the holes 15 of mounting pieces 14 projected horizontally from the bottom wall of the casing 2 of a flywheel power source 2 provided corresponding to the struts 13 are engaged with the struts 13, and connecting pieces 16 are engaged with the struts from above the pieces 14 and clamped. The level of the power source 1 is measured in this state, connecting implements 16, 17 having threaded holes are engaged with the portions 21 of the struts 13 to regulate the struts 13 in the vertical directions.

Description

DETAILED DESCRIPTION OF THE INVENTION [Technical Field of the Invention] The present invention relates to a method for mounting a flywheel power supply device, and particularly to a method for mounting a flywheel power supply device in a storage box for storing the flywheel power supply device.

[Prior art]

Conventionally, as shown in FIGS. 1 and 2, the flywheel power supply device has been installed in a storage box 1.
A method is used in which the device is attached to a column 13 provided on a base plate 12 which is slidably attached to a substrate 12 so as to be adjustable in the vertical direction. This consists of a cylindrical casing 2 with a vacuum-sealed interior, a flywheel 3 rotatably provided inside the casing 2, a cylindrical rotor extending below the outer periphery of the flywheel 3, and a rotor 4. a stator 7 consisting of a magnet 5 attached to a core and a winding 6;
The casing 2 of the flywheel power supply device 1 includes a stator frame 9 that supports the rotating shaft 8 of the flywheel 3 and has the windings 6 of the stator 7 attached thereto.
A hole 15 is provided in the mounting piece 14 provided at an arbitrary location on the outer periphery of the upper end, the above-mentioned support 13 is fitted into this hole 15, and the upper and lower sides of the mounting piece 14 are connected with connectors 16 and 17 such as tightening screws. It is a fixed structure. The magnet 5. The stator 7 and the stator frame 9 constitute a generator motor section.

However, according to the conventional flywheel power supply installation method as described above, the board 1 to which the support column 13 is attached
Since there is a limit to the thickness of the plate 2, the rotation of the flywheel 3 generates vibrations in the substrate 12 to which the support column 13 is fixed according to the spring constant of the substrate 12, which causes an error in the center of rotation of the flywheel 3. This has the disadvantage that it adversely affects rotational performance. Due to this, it is possible to install the mounting piece.

The very structure of setting the level correctly using the struts and connectors is wasted, and the flywheel power supply 1
It also lost its own credibility.

[Summary of the invention]

The present invention has been made to solve the above-mentioned drawbacks, and the flywheel power supply device is mounted directly on the bottom plate of the storage box by removing the board on which the flywheel power supply device is installed. do.

[Embodiments of the invention]

FIGS. 3 and 4 are simplified configuration diagrams showing an embodiment of the flywheel power supply installation method according to the present invention, and the same reference numerals as in FIGS. 1 and 2 indicate the same or corresponding parts. Third
In the figure, a support 13 is fixed at an arbitrary location on the bottom plate 20 of the storage box 11, and a spring portion 21 is attached to the support 13.
is formed, and the connecting tool 17 is attached by screwing into this threaded portion 21. Next, the hole 15 of the mounting piece 14 protruding horizontally from the bottom side wall of the casing 2 of the flywheel power supply device 1 provided corresponding to the support post 13 is loosely fitted into the support post 13, and the connection is made from the top of this mounting piece 14. Screw the piece 16 onto the support and tighten. In this state, the level of the flywheel power supply device 1 is measured, and the connecting tool 16, 17 having a screw hole is screwed into the threaded part 21 of the support 13 to adjust the support 13 in the vertical direction. By attaching the flywheel power supply device 1, the bottom plate 20 of the storage box 11 placed on the installation floor 22 does not bend and the support column 13 stands upright in a stable state. Since the casing 2 of the flywheel power supply device 1 is stable even during rotation, the rotational performance of the flywheel 3 and the electric power or power generation performance of the flywheel power supply bag W1 are not impaired.

Note that in the above embodiment, the support column 13. Connection tool 16.
17 etc., the level adjustment mechanism of the flywheel power supply device 1 has been described, but the present invention is not limited to this, and the storage box bottom plate 20 can be adjusted without using a level adjustment mechanism.
It may also be installed directly on the Moreover, instead of providing the level adjustment mechanism on the bottom plate 20 of the storage box 11,
It may be provided on the bottom surface or bottom side wall of 1.

By doing so, it is also possible to prevent the electric power or power generation performance of the flywheel power supply device 1 from deteriorating due to the deflection of the substrate 12 due to the rotation of the flywheel 3.

It is assumed that the inside of the flywheel power supply device 1 according to the above embodiment has the same configuration as that shown in FIG. 1.

〔Effect of the invention〕

As explained above, according to the method for installing a flywheel power supply device according to the present invention, a flywheel power supply device equipped with a generator motor section that applies rotational force to a flywheel and converts this rotational force into electric energy can be installed in a storage box. Unlike the conventional method of installing the flywheel power supply on the board, the board does not bend due to vibrations caused by the rotation of the flywheel, which improves the rotational performance of the flywheel. It is possible to provide a highly reliable flywheel power supply device that can prevent a decrease in the electric power generation performance of the flywheel power supply device and prevent a decrease in the electric power generation performance of the flywheel power supply device.

[Brief explanation of the drawing]

FIGS. 1 and 2 are partial cross-sectional views (II-I
FIGS. 3 and 4 are plan views of a storage box cross-sectional state (cut along line I) and a cross-sectional state (cut along line 1-I) of a storage box showing an embodiment of the method for installing a flywheel power supply device according to the present invention. FIG. 2 is a side view taken along the line and a plan view of the storage box taken in cross section along the line A-A. DESCRIPTION OF SYMBOLS 1... Flywheel power supply device, 3... Flywheel, 4... Rotor, 7... Stator, 11...
Storage box, 13... Support, 14... Mounting piece, 16.1
7... Connection tool, 20... = 6- Storage box bottom plate. -"7- Continued from page 1 0 Inventor: Tezuka -husband YaH Furuya Works, Higashi-ku, Nagoya 0 Inventor: Jo Muto 1-14 Minami 5-chome, Tsukaguchi Honmachi and Tsutsusho, Amagasaki City Mitsubishi Electric Co., Ltd. Company name chome 1-1
No.Mitsubishi Electric Corporation Central Research Institute

Claims (1)

[Claims] The installation of the flywheel power supply device is characterized in that the flywheel power supply device, which is equipped with a generator-motor section that applies rotational force to the flywheel and exchanges the rotational force into electric energy, is directly attached to the bottom plate of the storage box. Method.