JPS60210135A - Assembling structure of flywheel power source - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

[Detailed Description of the Invention] [Technical Field of the Invention] The present invention relates to an assembly structure of a flywheel power supply device, and particularly to an assembly structure of a flywheel power supply device in which a flywheel power supply sheath and an inverter box are separated. It is.

[Prior art]

Recently, a flywheel power supply device has been proposed as a power outage compensation device for compensating for power outage failures of computers and the like. This flywheel power supply device includes a flywheel that is rotatably provided by a shaft supported on the top and bottom surfaces of a casing whose interior is a vacuum container, and a stake that is made of an iron core and windings that is provided inside the flywheel. , consists of a cylindrical rotor formed by protruding downward from the outer lower part of the flywheel provided around the stator, and a permanent magnet provided on the inner periphery of the rotor. Normally, voltage is applied to the windings of the stator. is applied and the rotor rotates, causing the flywheel to rotate at high speed and store energy. When the external power supply is out of power, the rotary energy stored in the flywheel and rotor supplies power from the stator to loads such as computers. It is used as a synchronous generator.

Conventionally, as shown in FIG. 1, this flywheel power supply device has a flywheel power supply sheath 2 in which a flywheel power supply device 1 is housed, and an alternating current input from a power source to a load such as a computer at a constant voltage and constant frequency. It consists of an inverter housing part 4 on which an inverter box body 3 is placed, which houses an inverter that converts and supplies alternating current. An opening 6 for taking out is provided in an assembly box part 5 which is integrated with an inverter housing part 4, and an opening/closing door 7 is attached to this opening 6.

However, according to the conventional assembly structure of the flywheel power supply device as described above, the inverter accommodating section 4 for accommodating the inverter box 3 is formed on the upper side of the assembly box section 5; Since the impark box 3 itself is a box that houses the inverter, the storage sheath has to be manufactured twice, which not only requires an extra process but also has the drawback of increasing production costs. . In addition, having a double storage sheath is wasteful in terms of weight, and since the volume of the internal inverter box 3 is small, the storage space for each part of the inverter is controlled, and the inverter is operated. This has disadvantages, such as heat dissipation that adversely affects electronic components and causes malfunctions.

[Summary of the invention]

The present invention has been made in order to eliminate the above-mentioned drawbacks, and the inverter box body is installed in an exposed manner on the upper part of the flywheel power supply sheath, thereby reducing the number of parts and manufacturing process of the entire flywheel power supply. By omitting the above, it is possible to reduce the size and weight and increase the cost.

[Embodiments of the invention]

FIG. 2 is a perspective view showing an embodiment of the assembly structure of a flywheel power supply device according to the present invention, and the same or equivalent parts as in FIG. 1 are denoted by the same reference numerals.

In the figure, a flywheel power supply device 1 in which a flywheel, a rotor, etc. are rotatably installed is housed in a rectangular parallelepiped flywheel power supply sheath 10 with one wall open.

An opening 11 of the flywheel power supply sheath 1o is provided with an opening/closing door 12 for taking out the flywheel power supply 1 for repair, maintenance, etc. An inverter box 3 in which an inverter is housed is installed on the upper surface of the flywheel power supply sheath 10, and this inverter box 3 is abbreviated as the flywheel power supply sheath 10. Same shape, same size.

With the above configuration, the inverter box 3 is placed directly exposed on the upper surface of the flywheel power supply sheath 10, so the inverter is placed inside the inverter box with no space. Since the inverter is housed with sufficient margin, it is possible to prevent adverse effects on electronic components etc. due to heat radiation of the inverter. In addition, unlike conventional methods in which an inverter sheath is provided on the outer periphery of the inverter box, there is no need to form a double sheath, which increases production costs and reduces the weight of the inverter. can do. In addition, in the above embodiment, the inverter box body is replaced by the flywheel sheath part and the sheath part 10 for the power supply device.
Although the same shape and size are used, different shapes and sizes may be used.

〔Effect of the invention〕

As explained above, according to the assembly structure of the flywheel power supply device according to the present invention, since the inverter box body is exposed and placed on the upper surface of the flywheel power supply sheath part,
A storage section that houses the inverter box is not required, making it possible to reduce weight, size, and weight, and reduce manufacturing costs. Further, since the storage space for the inverter can be increased, it is possible to prevent the adverse effects of heat radiation of the inverter on electronic components, and it is possible to improve the accuracy, lifespan, etc. of the inverter.

[Brief explanation of the drawing]

FIG. 1 is a perspective view showing an example of the assembly structure of a conventional flywheel power supply device, and FIG. 2 is a perspective view showing an example of the assembly structure of the flywheel power supply device according to the present invention. 1... Flywheel power supply device, 2.10... Flywheel power supply box part, 3... Inverter box body,
4... Inverter box storage sheath part, 6, 11...
Opening, 7, 12...opening/closing door. In addition, in the figures, the same reference numerals are used for the same or equivalent parts. Agent Masuo Oiwa (and 2 others) Continued from page 1 0 Inventors Kiyoshi Muto Amagasaki Ichizuka

Claims (1)

[Claims] In the assembly structure of the flywheel power supply device consisting of a flywheel power supply sheath part in which the flywheel power supply device is housed and an impark box body in which the inverter is housed, the upper surface of the flywheel power supply sheath part is An assembly structure for a flywheel power supply device, characterized in that an inverter box is provided and the inverter box is exposed.