IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0146383
(2010-02-08)
|
등록번호 |
US-8468949
(2013-06-25)
|
우선권정보 |
KR-10-2009-0126104 (2009-12-17) |
국제출원번호 |
PCT/KR2010/000768
(2010-02-08)
|
§371/§102 date |
20110726
(20110726)
|
국제공개번호 |
WO2011/074739
(2011-06-23)
|
발명자
/ 주소 |
- Kwon, Sam-Young
- Kim, Hyung-Chul
- Jang, Dong-Wook
- Cho, Yong-Hyeon
- Lee, Hyung-Woo
- Park, Chan Bae
|
출원인 / 주소 |
- Korea Railroad Research Institute
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
14 인용 특허 :
35 |
초록
▼
Provided is a tube railway system that reduces noise and air resistance using a sealed evacuated tube as a passage for a tube railway, thereby allowing a train to run at a higher speed. A vacuum division management system and a vacuum blocking screen device for a tube railway system required to main
Provided is a tube railway system that reduces noise and air resistance using a sealed evacuated tube as a passage for a tube railway, thereby allowing a train to run at a higher speed. A vacuum division management system and a vacuum blocking screen device for a tube railway system required to maintain vacuum are provided, in which the vacuum blocking screen device is operated to rapidly block a passage for a tube railway in response to an operation signal, is installed at every certain section or at a designated section of the tube railway, and is operated in a specific section when a vacuum maintenance problem occurs, or when the vacuum needs to be released, or when the train needs to stop immediately, thereby allowing the specific section to be isolated from other sections to have a degree of vacuum different from those of the other sections.
대표청구항
▼
1. A vacuum division management system for a tube railway system using a sealed evacuated track, the vacuum division management system comprising: a vacuum blocking screen device installed in a designated section of a tube railway, the vacuum blocking screen device being configured to be opened in a
1. A vacuum division management system for a tube railway system using a sealed evacuated track, the vacuum division management system comprising: a vacuum blocking screen device installed in a designated section of a tube railway, the vacuum blocking screen device being configured to be opened in a normal operation mode and configured to be closed to block a tube railway passage in an abnormal operation mode, such that the designated section blocked by the vacuum screen device has a degree of vacuum different from those of other sections; anda controller configured to monitor conditions of the tube railway and operating conditions of the train, and configured to control the vacuum blocking screen device based on the monitored conditions or a control operation,wherein the vacuum blocking screen device includes: a blocking screen configured to block the tube railway passage perpendicularly to the tube railway passage;an upper structure configured to hold the blocking screen in a standby state;a lower structure configured to seal a gap between the blocking screen unfolded from the upper structure and a lower surface of the tube railway passage;a vertical guide structure configured to guide the blocking screen in a downward direction when the blocking screen is unfolded;a blocking screen outskirts sealing part formed on outskirts of the blocking screen and configured to fill a space between the blocking screen and the tube railway passage to block a flow of air therebetween;a blocking screen driver configured to drive the blocking screen so that the blocking screen is unfolded from or held in the upper structure;a blocking screen boundary sealing device configured to block air from being circulated into a boundary between the blocking screen and the vertical guide structure; anda latch device installed in the upper structure configured to hold the blocking screen when being folded up under control of the controller. 2. The vacuum division management system according to claim 1, further comprising a vacuum release means configured to release the vacuum from the designated section blocked by the vacuum blocking screen device of the tube railway. 3. The vacuum division management system according to claim 1, further comprising a vacuum establishing means configured to provide the vacuum in the designated section blocked by the vacuum blocking screen device of the tube railway, wherein the vacuum establishing means includes at least one of, a vacuum pump for placing an interior of the tube railway under the vacuum or a device for connecting to an external vacuum pump. 4. The vacuum division management system according to claim 1, further comprising a pressure sensing means configured to sense pressure in the designated section closed by the vacuum blocking screen device of the tube railway. 5. The vacuum division management system according to claim 1, wherein the upper structure and the vertical guide structure have a round shape with a predetermined curvature, respectively. 6. The vacuum division management system according to claim 1, wherein the blocking screen is formed in a flexible material to allow smooth folding or unfolding of the blocking screen. 7. The vacuum division management system according to claim 1, wherein the blocking screen has a substantially quadrilateral shape and the tube railway passage has a substantially circular shape. 8. A vacuum blocking screen device for a tube railway system, the vacuum blocking screen device comprising: a blocking screen configured to block a passage of a tube railway;an upper structure configured to hold the blocking screen in a standby state;a lower structure configured to seal a gap between the blocking screen unfolded from the upper structure and a lower surface of the tube railway passage;a vertical guide structure configured to guide the blocking screen in a downward direction when the blocking screen is unfolded;an outskirts structure configured to fill a gap between the tube railway and the blocking screen;a blocking screen driver installed in the vertical guide structure and configured to drive the blocking screen to allow the blocking screen to be unfolded from or folded into the upper structure;a blocking screen boundary sealing device configured to block air from flowing into a boundary between the blocking screen and the vertical guide structure; anda latch device installed on the upper structure and configured to hold the blocking screen when being folded up under control of a controller. 9. The vacuum blocking screen device according to claim 8, wherein the blocking screen is formed in, at least one of, a curtain-like single layered screen type or a bag type. 10. The vacuum blocking screen device according to claim 9, wherein the blocking screen is formed in, at least one of, a nylon material coated with synthetic rubber or a material similar to the nylon material. 11. The vacuum blocking screen device according to claim 8, wherein the blocking screen is formed in a bag type, and has tethers embedded therein to have a desired shape when the blocking screen is opened. 12. The vacuum blocking screen device according to claim 11, wherein the blocking screen is formed in, at least one of, a nylon material coated with synthetic rubber or a material similar to the nylon material. 13. The vacuum blocking screen device according to claim 8, wherein the blocking screen is formed in, at least one of, a nylon material coated with synthetic rubber or a material similar to the nylon material. 14. The vacuum blocking screen device according to claim 8, wherein the outskirts structure includes a structure designed based on a shape of a residual space between outer surfaces of the upper structure, the vertical guide structure and the lower structure and an inner surface of the tube railway passage to fill the residual space, and a plurality of vents, each of which is formed in the structure, has a circular or elliptical shape, and includes a balloon, an air injection port, and lattices for guiding a shape of the balloon when the balloon is inflated, whereby the vent is closed by the balloon into which air is injected by compressed air or pyrochemical reaction of a propellant, and is opened by the balloon from which the air is discharged. 15. The vacuum blocking screen device according to claim 8, wherein the blocking screen driver is installed in the vertical guide structure, and includes a linear synchronous motor (LSM) in which winding for a stator is installed on a side of a guide rail of the vertical guide structure and a permanent magnet is installed on a movable body that is connected to a leading end of the blocking screen to hold the blocking screen. 16. The vacuum blocking screen device according to claim 8, wherein the blocking screen is formed in a bag type, and the blocking screen driver is driven by a gas diffusion method utilizing a gas generating means for generating gas to inflate the blocking screen at a high speed and a gas injecting means for injecting the generated gas into the bag-type blocking screen. 17. The vacuum blocking screen device according to claim 16, wherein the gas generating means is configured to cause a propellant to undergo a pyrochemical reaction to generate a large quantity of gas (azide type) or activate gas compressed in the blocking screen along with the pyrochemical reaction of the propellant (hybrid type). 18. The vacuum blocking screen device according to claim 8, wherein the blocking screen boundary sealing device includes a balloon installed on the blocking screen outskirts sealing part to block the blocking screen outskirts sealing part, and an air introducing means for introducing and discharging air through an air injection port to inflate or deflate the balloon to perform airtight control on the blocking screen outskirts sealing part. 19. The vacuum blocking screen device according to claim 8, wherein the blocking screen boundary sealing device is configured to generate a large quantity of gas using a method of causing a propellant to undergo a pyrochemical reaction or a method of activating compressed gas along with the pyrochemical reaction of the propellant, configured to inject the gas into a balloon through air injection port to inflate the balloon, and configured to perform airtight control on, at least one of, a boundary between the blocking screen and the vertical guide structure or a boundary between the blocking screen and the lower structure. 20. The vacuum blocking screen device according to claim 8, wherein the upper structure and the vertical guide structure have a round shape with a predetermined curvature, respectively. 21. The vacuum blocking screen device according to claim 20, wherein the blocking screen is formed in a material having flexibility to allow smooth folding or unfolding of the blocking screen.
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