JPH0261300A - Data storing equipment - Google Patents

Abstract

PURPOSE:To protect an equipment from EMP due to nuclear explosion by a method wherein a main pit and a shaft are excavated from ground surface to an underground section, and wherein the tip of a branched pit is provided with an underground storage housing with an electromagnetic wave shielding means, and wherein a means for automating the carrying-out, carrying-in, storing, and the like of data continuously is set. CONSTITUTION:A main pit 2 consisting of a horizontal pit and inclined pit to an underground section connected to a load disposal place on the surface of ground is excavated, and the tip is provided with an underground control center 3 or the like, and a plurality of the branched pits 6 of the inclined pit connected to a shaft 5 are excavated, and the tip is provided with an underground storing housing 7. The main pit 2 and the respective branched pits 6 are provided with a belt conveyor 8, and the shaft 5 is provided with an elevator 9, and respective exits and entrances are provided with respective doors 11...71, and on the doors and the respective underground storing housings 7, electromagnetic wave shielding means are arranged. In the storing housings 7, automatic storing shelves 73 are arranged, and data storing cases A are contained, and the carrying-out and the carrying-in of the data are continuously automated, and by a control equipment with the center of the control center 3, inventory is controlled in an automatic control real-time.

Description

DETAILED DESCRIPTION OF THE INVENTION Field of the Invention The present invention relates to data storage facilities that protect data media such as magnetic tapes and disks from electromagnetic pulses (EMP) caused by nuclear explosions.

``Problems to be solved by conventional technology and inventions'' When a nuclear explosion occurs at high altitude above the stratosphere, a powerful EM is generated within a few nanoseconds.
For example, a 1-megaton class object is generated at an altitude of 10
When it explodes at 0 km, the rise time is approximately Ions, the generated electric field is 5 yiv/m, F, MP is generated, and several thousand - (2 to 3
The electric field strength is 210 dBμV/m in the range of 1,000 -) (see Figs. 3 and 4).

This EMP not only instantly destroys information networks and various electronic control devices on the ground, paralyzing communication, control, command, and information systems, but also destroys data media such as magnetic tape and magnetic disks. can also cause damage.

Currently, most of the data storage facilities in Japan are above-ground type, with structures that can withstand earthquakes, floods, storms, etc.
No measures have been taken against MP.

By the way, it is estimated that implementing above-ground EMP countermeasures would cost an astronomical amount of money, and in the United States and other countries, underground methods are being considered. Not enough has been disclosed yet.

In addition, conventional data storage often relies on obtaining data, from bringing the data case in to storing it in a storage warehouse, making it impossible to manage it in a complex underground labyrinth.

The present invention attempts to solve these conventional problems.

``Means for Solving the Problems'' The present invention involves excavating a main shaft of a horizontal shaft or a diagonal shaft from the ground surface to underground, excavating a charge connected to the main shaft, and excavating a main shaft of a horizontal shaft or a diagonal shaft connected to the main shaft. Multiple branch shafts will be excavated, underground storage will be installed at the tip of each branch shaft, belt conveyors will be installed in the main shaft and each branch shaft, elevators will be installed for loading, and automatic storage shelves will be installed in each intermediate storage. , provide doors at the entrances and exits of the main tunnel, loading and branch shafts, and each central storage area, and provide electromagnetic shielding measures for these doors and each central storage area;
Additionally, these doors, belt conveyors, elevators and automatic storage shelves are equipped with a series of continuous automation measures.

``Operation'' Due to the above structure, incoming EMP is absorbed by the earth and is difficult to enter into the tunnel, and even if it does enter, it is difficult to enter the tunnel, and even if it does enter, it will be blocked by the multiple doors and underground storage facilities arranged in various places. It is removed to the earth by electromagnetic shielding means and never reaches the inside of the underground storage facility.

Loading, unloading, and storage of data media are carried out automatically by continuously operating doors, belt conveyors, elevators, and automatic storage shelves one after another under certain conditions.

"Example" Figures 1 and 2 show examples of the present invention, and the facilities shown in the figures are:
In mountains, etc., a cargo handling area 1 is set up at an appropriate location on the ground surface, and a main tunnel 2 consisting of a horizontal shaft and a slanted shaft is excavated into the ground connected to the cargo handling area, and an underground management center 3 and an air-conditioning center are installed at the tip of the main shaft. A mechanical/electrical room 4 is installed, and a deep loading 5 is connected to the underground control center 11! ! A plurality of branch shafts 6 of the inclined shaft are excavated in series with the loading, an underground storage 7 is provided at the tip of the branch shaft, and a belt conveyor is installed in the main shaft 2 and each branch shaft. In addition, an elevator 9 is provided at the loading station 5, and the above-mentioned cargo handling area 1, the main tunnel 2, the underground management center 3, the loading station 5, each branch tunnel 6..., and the various underground storages 7 are installed.
-(7) Te entrance d + h Sohio, 21, 31. sl
+61, 71... have installed electromagnetic shielding measures for these doors and storage rooms 7... throughout the area.

In addition, mortar 10 is sprayed onto the walls of the main tunnel 2 to the storage warehouses 7, . . . .

The underground storage 7... is provided with a reinforced concrete box 75 whose periphery is supported by a support member 74 in the excavated space, and the box is provided with an entrance/exit door facing the branch shaft 6, and the entrance/exit The above-mentioned door 71 is provided in the box, and zinc spraying 72 is applied to the inner surface of the box to provide electromagnetic shielding.
An automatic storage shelf 73 is arranged inside the warehouse, and a data storage case A containing data media is stored in the automatic storage shelf.

By the way, doors 11, 21, 31, 51, 61...
・, 71... Belt conveyor 8..., Elevator 9
and automatic storage@73... will be continuously automated, and
The management system centered on the management center 3 automatically performs data storage case A.
... is automatically transported and stored from the loading lock l to a predetermined underground storage 7..., and then to the automatic storage shelf 73...,
On the other hand, it should be possible to automatically take out and bring in items, and
The data storage cases A... in the storage warehouses 7... in each region are managed in real time at the management center 3, so that the storage status can be checked in real time.

Therefore, the facility of this embodiment can be unmanned, allowing for orderly loading, unloading, and storage, and convenient inventory management.

"Effect of the invention" According to the present invention, the following effects are achieved.

i. EMP caused by a nuclear explosion will not enter the underground storage facility, and data media such as magnetic tapes and magnetic disks can be sufficiently protected from damage caused by EMP.

Ii, it can be obtained easily and at low cost by utilizing abandoned mines and the like.

iii. In underground space, the temperature and humidity are constant without the influence of outside air, so it is easy to control the temperature and humidity, and it can be stably managed under the optimal conditions of temperature 20°C ± 2°C and humidity 50% ± 10%. can.

■The import/export, storage, and inventory management of data media can be carried out automatically and in an orderly manner, making it easy to check the storage status.

■ Electromagnetic shielding for underground storage can be done simply by spraying zinc spray on site.

[Brief explanation of the drawing]

Figures 1 and 2 show examples of the present invention; Figure 1 is a diagram of the configuration; Figure 2 is a sectional view of the main parts; Figure 3 is an explanation showing the effects of EMP caused by a nuclear explosion. 4 are waveform diagrams of EMP, etc. accompanying a nuclear explosion. 1... Separation area 2... Main mine shaft 3... Management center 4... Mechanical/electrical room 5... Loading
6...Branch tunnel 7...Underground storage
8...Belt conveyor 9...Elevator
10...Mortar for spraying 11.21.31,51
,61.71...Door 72...Zinc spraying 7
3...Automatic storage shelf 74...Support material 76...Entrance/exit a5...Box τ6...Entrance/exit Fig. 3"g +a L (St

Claims (1)

[Claims] (1) Excavate a main shaft of a horizontal or inclined shaft from the ground surface to underground, excavate a vertical shaft connected to the main shaft, excavate multiple branch shafts of horizontal or inclined shafts connected to the vertical shaft, and An underground storage facility will be installed at the tip of the branch shaft, a belt conveyor will be installed in the main shaft and each branch shaft, an elevator will be installed in the shaft shaft, and automatic storage shelves will be installed in each intermediate storage facility. Doors will be installed at the entrances and exits of the mine shafts and the storage areas in each area, electromagnetic shielding measures will be installed on these doors and storage areas in each area, and a series of continuous automation measures will be installed on these doors, belt conveyors, elevators, and automatic storage shelves. A data storage facility characterized by the following measures taken.