KR20110091833A

KR20110091833A - Container transport system in a vacuum

Info

Publication number: KR20110091833A
Application number: KR1020100011261A
Authority: KR
Inventors: 김마리용
Original assignee: 김마리용
Priority date: 2010-02-07
Filing date: 2010-02-07
Publication date: 2011-08-16

Abstract

The present invention relates to a transportation system capable of quickly transporting a large amount of cargo containers to a long distance in a short time, and more particularly, in the form of a rocket containing a cargo container using a pressure difference of air in a vacuum pipeline. It is to transport the capsule vehicle quickly and quickly.
For this purpose, the suction compressor air tank and the high pressure jet compressor air tank are installed to face each other with a pipeline therebetween every 20 km. Inject and transport cargo by the difference in pressure. The system is powered by nighttime power, which runs a large compressor to compress air above 10 atm and stores it in an air tank for 24 hours. And every 20km, the automatic entrance / exit door is installed and opened and closed according to the movement of cargo.

Description

Container transport system in a vacuum

The present invention relates to a transportation system capable of quickly transporting a large quantity of cargo containers to a long distance in a short time, and more specifically, to a rocket shape containing a cargo container using a pressure difference of air in a vacuum pipeline. It is to transport the capsule vehicle quickly and quickly.

Current freight transport depends entirely on land transportation. Container freight is also expected to triple in 2020 (47,411 thousand teu) compared to 2006 (15,965 thousand teu).

The present invention is to solve this problem is a transportation means that can quickly transport a large amount of container cargo to a long distance in a short time. The system can also reduce the amount of CO2 emissions by dispersing the current volume of traffic concentrating on highways and reducing truck operations.

Every 20km, the suction compressor air tank and the high pressure spray compressor air tank are installed to face each other with the pipeline in between. Carry freight by the difference in pressure.

The system is powered by nighttime power, which runs a large compressor to compress air above 10 atm and stores it in an air tank for 24 hours. And every 20km, the automatic entrance / exit door is installed and opened and closed according to the movement of cargo.

At a low cost, many container cargoes can be transported quickly over long distances in a short time, dispersing the current volume of traffic concentrating on highways and reducing truck traffic, thus reducing carbon dioxide emissions.

Brief Description of the Drawings Figure 1 is a schematic design of a cargo transport pipeline system, with A representing a high pressure jet compressor-air tank, B representing a suction compressor air tank, C entering and exiting automatic doors, and D representing a pipeline.
2 is a wheeled freight transport capsule vehicle.
3 shows the role of the tail wing of a wheeled cargo transport capsule vehicle.

Article 1. The tunnel is made of cement, metal or FRP depending on the surrounding conditions.

Article 2. The rocket capsule freight car is made of light aluminum and the wheeled capsule car has protective wheels on the side and top.

Article 3. The monorail capsule vehicle is a T-shaped rail or a conventional 11-shaped rail.

Article 4. Based on the capsule-type vehicle, the front air is sucked in and stored in the air tank with a compressor to vacuum the front of the vehicle. The rear of the vehicle is a high-pressure dispersion compressor that injects and regulates high pressure air of 10 atm or higher to allow the capsule vehicle to travel 150-200 km.

Article 5. The tail wing of pipe size is installed at the rear of the capsule type vehicle to maintain the vacuum state in front of the capsule type vehicle and the high pressure state behind the tail wing.

Article 6. The encapsulated transport vehicle is a sealed vehicle that is not deformed even by the pressure difference of air, so that the cargo in the encapsulated transport vehicle is not damaged.

Article 7. By saving air at night and operating 24 hours a day, it can reduce the cost of freight transportation, and it can reduce the CO2 emissions by dispersing the current traffic volume concentrated on the highway and reducing the operation of trucks.

Claims

Tail of a rocket capsule cargo vehicle carrying container cargo with air shutoff technology.

High pressure air compressor and high pressure tank An air tank that can withstand 10 atmospheres or more.

Automatic door opening and closing automatic door and sensor switch every 20km

Rocket Capsul Multiple vehicle protection wheels on the left and right of the lorry and the vehicle protection wheels on the top

T-shaped monorail

The core technology for transporting heavy cargo vehicles at high speed by maintaining vacuum at the front and high pressure air system at the back of 10 at the rocket capsule vehicle

Every 20km pass through the vehicle's opening and closing doors, at the same time air intake and 10 atm air injectors