JPH0228038A - Gas service station - Google Patents

Abstract

PURPOSE:To make it possible to feed a stable power to various facilities of a gas service station not only in a power faliure condition but also in a normal condition by providing a superconductive power storage, and connecting the superconductive power storage to a power source and the facilities of the gas service station through a charge and discharge control device. CONSTITUTION:In the day time, after regulating the voltage of the power from a solar battery 11 by a charge and discharge control device 10, the power is stored in a superconductive power storage 9 set in a basement 8 of a gas service station. On the other hand, at night, a low cost power from a commercial power source is A-D converted by the charge and discharge control device 10, and after the voltage is regulated, it is stored in the superconductive storage 9. The power stored in the superconductive power storage 9 as a permanent current in such a way is D-A converted by the charge and discharge control device 10, the voltage is regulated further, and fed to fuel feeders, a sale data input/output device (POS) 7, a car washer, lighting lamps 5, and the like. Consequently, under the condition including power failure, a stable power supply is made possible, and the charge of power expense can be also decreased.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a filling station for refilling automobiles and the like with oil such as gasoline.

[Conventional technology] As is well known, a gas station has a gasoline refueling machine and a car wash machine installed on the premises, and uses the refueling machine to replenish cars, etc. with gasoline and other oils, and the car wash machine to wash the car bodies. is the main business.

By the way, there are not only the pump motors of these refueling machines and the motors that operate the car wash machines, but also the canopy that covers the area above the premises, the lighting installed in the building, and the equipment that is installed inside and outside the building to manage refueling data such as the amount of refueling and the amount of refueling. There are many devices inside gas stations that use electricity, such as sales data input/output devices for gas stations.

Conventionally, commercial power sources have been used as power sources for such devices, but in the event of a power outage, the power supply to each device is stopped and the devices become inoperable. Therefore, in order to eliminate such inconveniences, an example of an uninterruptible power supply system using a power storage site including a solar battery as a power storage means usable at gas stations has been considered.

[Problems to be solved by the invention] With conventional power storage means using power storage sites, it is difficult to fill up the power storage of all the equipment in a gas station due to the small power storage capacity. Even if they were not used, the electrical energy would gradually decrease, so their use was limited to temporary use.

SUMMARY OF THE INVENTION An object of the present invention is to eliminate the disadvantages of the conventional example, and to provide a fueling station that can store a large amount of electricity without loss and that can be used effectively.

[Means to solve the problem]

In order to achieve the above object, the present invention provides a superconducting power storage device and connects the storage device to a power source and gas station equipment via a charge/discharge control device.

[Effect]

According to the present invention, when current is passed from the power source to the superconducting power storage device via the charge/discharge control device, electric power is stored in the superconducting power storage device in the form of persistent current.

By supplying the electric power stored in this superconducting power storage device to gas station equipment such as gasoline refueling machines and lighting lights via a charging/discharging control device, equipment can be reliably operated not only during power outages but also at all times. can be activated.

(Example〕 Embodiments of the present invention will be described in detail below with reference to the drawings.

FIG. 1 is an overall perspective view showing an embodiment of a gas service station of the present invention.
This is an example of installing a suspended type oil supply system.

To explain the overall structure of such a filling station, as in the past,
A canopy 2 covering the upper part of the site 1 is provided with a hose processing device 4 with a refueling hose 3 suspended therein, and a large number of lighting lights 5 are provided.
In addition, a gas station sales data human output device (hereinafter referred to as PO3) 7 is installed in a building 6 such as an office within the premises 1.

In the present invention, a superconducting power storage device 9 is provided in the basement 8 of such a gas station, and connected to a charge/discharge control device 10.

This superconducting power storage device 9 uses a superconducting coil with a resistance value of 0. Appropriate current is applied to the superconducting coil from the outside, and this current is kept flowing forever.
It stores electricity as a persistent current.

By the way, the superconducting coil is subjected to a large force that tries to spread the coil outward due to the magnetic flux generated by the current and the action of the coil, so a strong restraining band is required around the outer circumference of the coil. As a result, the entire structure becomes large, so in this embodiment, it is installed in the basement 8 where it will not get in the way.

The charge/discharge control device 10 controls the supply and extraction of power to and from the superconducting power storage device 9 while adjusting the voltage of the electricity flowing into the superconducting power storage device 9 and the voltage of the electricity taken out from the storage device 9. It is something.

Then, a solar battery 11 was installed in Canobi 2 as a power source.

FIG. 2 is a block diagram of power supply, in which power from the solar battery 11 and commercial power source 12 is supplied to the superconducting power storage 9 via the charge/discharge control device IO, and the power from the superconducting power storage 9 is charged. The lighting lamp 5, car wash machine 13, refueling device 14 and P, which are the equipment of the gas station, are connected via the discharge control device IO.
Supplied to O37.

Next, the usage and effect will be explained.

During the day, power from the solar battery 11 is voltage-adjusted by the charge/discharge control device 10 and stored in the superconducting power storage device 9, and at night, inexpensive nighttime power is supplied from the commercial power source 12 or A-D by the charge/discharge control device 10. It is converted, further voltage-adjusted, and stored in the superconducting power storage device 9.

The electric power thus stored in the superconducting power storage device 9 as a persistent current is converted into DA by the charge/discharge control device 10, and the voltage is further adjusted to supply the electric power to the refueling device 14 in the refueling station and the PO 37.
, the car wash machine 13, and the lighting lamps 5.

As described above, by storing solar battery power and inexpensive nighttime power as a permanent current in the superconducting power storage device 9 using superconducting coils, the power consumption and charges from commercial power sources at gas stations can be reduced. can.

〔Effect of the invention〕

As described above, the gas station of the present invention stores electric power as a permanent current in the superconducting power storage device, so that it is possible to stably supply power to various equipment at the gas station not only during power outages but also at all times. .

In addition, solar batteries and nighttime electricity can be used as a power source for the power supplied to the superconducting power storage device, and the power supplied from these power sources can be stored without loss, and can be freely withdrawn in any amount. Electricity consumption becomes cheaper.

[Brief explanation of the drawing]

FIG. 1 is an overall perspective view showing an embodiment of a gas service station of the present invention, and FIG. 2 is a block diagram of the same. l... Site 2... Canopy 3... Refueling hose 4... Hose processing device 5... Lighting light
6... Building 7... Sales data input/output device (POS) for gas station 8.
...Basement 9...Superconducting power storage device 10...
・Charge/discharge control device 11...Solar battery 12...Commercial power supply 13...Car wash machine 14...
Refueling device

Claims (1)

[Claims] 1. A gas station, comprising a superconducting power storage device, and the storage device is connected to a power source and gas station equipment via a charge/discharge control device.