![]() ![]() ![]() In addition the associated systems will mostly be similar to those used in orbiting hotels existing at the time, although the impacts on the design of the host hotel and its sub-systems such as air-conditioning, electric power and drainage will add to the cost. From the above discussion it is clear that the structure itself will not be difficult to design, manufacture or assemble. Even allowing for some packing inefficiency, launching the parts of the gymnasium should take no more than 10 flights, costing perhaps ¥1,000 million. Kankoh-maru is expected to have a launch cost of ¥1OO million or less for some 5-6 ton nes of payload. This is essentially the same criterion that a company planning a hotel on Earth faces when deciding whether to include a swimming pool. The economnic feasibility of a gymnasium as one facility in an orbital hotel depends on the additional cost of the gymnasium (including both capital and operating costs) being less than the additional price that guests would consider acceptable. It will therefore be suitable for cai'rying relatively wide objects such as the curved segments of the gymnasium stacked together. Kankoh-maru will have a cargo bay some S m in diameter, and a payload capacity to The assembly process will start from the segment attached to the connection with the host hoteL Segments wUl be connected in successive rings as in tunnelling, and the procedure will be practised on Earth in advance. Consequenfly assembly will be much easler than tunnelling operations on Built. There will also be no problems such as dirt, noise or water ingres. Each segment will have a mass of only about 500 kg, and effectively no weight. ![]() The system adjusts automatically to make allowance for such problems as deformation of the erector structure under variable loading in the Earth's gravitational field.Ī smaller, light-weight version of SABIS will accurately position the segments of the orbital gymnasium around the structure's axis, and bolt them together. SABIS then bolts the segments together automatically. Hazama Corporation 's "SABIS" (Segment Automatic Building Intelligent System) use position-sensing lasers to control the 3-D positioning, with 6 degrees-of-freedom, of 2500 kg tunnel-segments around the tunnel axis with an accuracy of 0.5 mm (6). Modern tunnelling methods use robots for positioning and fastening massive cylindrical tunnelwall segments around the inside surface of the tunnel. This would be efficient since the volume of the gymnasium will be sufficient to shelter all residents simultaneously. JRS Space Tourism Study Program (5), and will be assembled in orbit by a construction team.Ī possible additional function which is also considered briefly is to act as a shelter for all hotel guests and staff in the event of emergencies such as solar-flare radiation or a fire. Kankoh-maru " reusable launch vehicle (4), designed as part of the The gymnasium will be launched in component form by a cargo version of the " The gymnasium will be attached to an orbiting hotel, from which it will receive services such as electric power, HVAC and station-keeping. #No gravity room professionalEach of these activities will be performed at several different skill levels from beginner to advanced, under supervision of professional staff. ![]() Possible activities will include practising moving in "zero-G", gymnastic exercises, and games and sports for both individuals and teams. The requirement is to provide guests with the possibility of enjoying physical activities in a comfortable zero-gravity room having a volume of several thousand cubic meters. ![]()
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |