Humanoido at Skyscraper Observatory has invented the Diurnal Telescope Shield DTS.
Telescopes stationed in observatories are generally unheated and uncooled to maintain thermal equilibrium. Although equipment under observatory domes may not be in direct sunlight, other observatories may differ, such as the skyscraper observatory.
Depending on location, the telescope may undergo baking under the sun or freezing. This invention is concerned with the former. A telescope may consist of plastic drive covers, nylon gears, special lens glue, rubber knobs, electronic components, and other components that can degrade, crack, or melt in direct sunlight which can approach oven temperature. Heat is a concern near the equator and in tropical or subtropical locations especially in the summer time.
The DTS is capable of shielding a sensitive telescope located outdoors or in a location which is exposed to the daytime elements such as wind, rain, and direct baking sun. Primarily as a heat and weather shield, the device covers the telescope and reflects 90% solar radiation. The outer layer is designed by NASA for space exploration. The inner layers are composited. The first version is benign with no internal machine cooling while the second active version has a miniature refrigerator using a circulatory Peltier cooler.
Space1 Industries, a division of United Space Technologies, is a bold new space venture, taking you safely into space with futuristic technology. The mission - to the moon, planets and new worlds!
Tuesday, July 17, 2018
Friday, July 13, 2018
Skyscraper as Observatory
The Skyscraper as Observatory
A Skyscraper Observatory is different compared to a conventional domed observatory. It has protective sub walls and a partial sub ceiling, yet remains in full view of the night sky in a selected orientation such as East to South plus East to North inclusive of the Zenith.
Not any skyscraper will work, as tall narrow structures are often in great constant motion and vibration due to the ruler effect. Some floors as low as level 6 are known to cause motion sickness. These narrow skyscrapers amplify small motions, earthquakes, local traffic, trains, buses, construction sites, and underground subways. Some telescope companies offer anti-vibration pads to help reduce vibrations. These may work best at specific harmonics.
The best structures are newer, more expensive, quad wide, stable, and don't have the problems associated with the former. Many of these new quads are so well built, top-most safety roof access is granted for spectacular nighttime all-sky observing. New quad designs also have elevators leading to the top, while decades and older buildings have elevators that may stop and require an additional six flights of stairs to reach the top! Older skyscrapers may have roofs that are not safe near the edges. An errant high gust of wind could potentially lift a bystander and cause a plummet to the death! Many are banned from going rooftop due to a form of suicide. Observe all roof-top precautions.
Some trends in skyscrapers are notable. Oldest buildings had windows covered in metal bars. These were often modded over the years to include the attachment of bar cages to hold potted plants, a few items, and a small clothes line. The next generation skyscraper included a small narrow deck for a washing machine capable of supporting more substantial weight. These designs spawned many variations of patio/decks. (curved, rectangular, open, closed, caged, partial walled, ceiling, no ceiling, sides, no sides, fenced, blocked...) Following, modern skyscrapers were born of two designs. One design has no deck with the washing machine located indoors in the kitchen, and another design has one or two usually opposing larger decks. Generally the smaller deck is for the washing machine and hanging up clothes while the larger deck holds an unobstructed majestic skyline view. It's this latter design that's perfect for a skyscraper observatory.
A Skyscraper Observatory is different compared to a conventional domed observatory. It has protective sub walls and a partial sub ceiling, yet remains in full view of the night sky in a selected orientation such as East to South plus East to North inclusive of the Zenith.
Not any skyscraper will work, as tall narrow structures are often in great constant motion and vibration due to the ruler effect. Some floors as low as level 6 are known to cause motion sickness. These narrow skyscrapers amplify small motions, earthquakes, local traffic, trains, buses, construction sites, and underground subways. Some telescope companies offer anti-vibration pads to help reduce vibrations. These may work best at specific harmonics.
The best structures are newer, more expensive, quad wide, stable, and don't have the problems associated with the former. Many of these new quads are so well built, top-most safety roof access is granted for spectacular nighttime all-sky observing. New quad designs also have elevators leading to the top, while decades and older buildings have elevators that may stop and require an additional six flights of stairs to reach the top! Older skyscrapers may have roofs that are not safe near the edges. An errant high gust of wind could potentially lift a bystander and cause a plummet to the death! Many are banned from going rooftop due to a form of suicide. Observe all roof-top precautions.
Some trends in skyscrapers are notable. Oldest buildings had windows covered in metal bars. These were often modded over the years to include the attachment of bar cages to hold potted plants, a few items, and a small clothes line. The next generation skyscraper included a small narrow deck for a washing machine capable of supporting more substantial weight. These designs spawned many variations of patio/decks. (curved, rectangular, open, closed, caged, partial walled, ceiling, no ceiling, sides, no sides, fenced, blocked...) Following, modern skyscrapers were born of two designs. One design has no deck with the washing machine located indoors in the kitchen, and another design has one or two usually opposing larger decks. Generally the smaller deck is for the washing machine and hanging up clothes while the larger deck holds an unobstructed majestic skyline view. It's this latter design that's perfect for a skyscraper observatory.
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Thursday, July 12, 2018
Skyscraper Observatory Under Construction
New skyscrapers closer to the sky |
with 46-Meter Xtelescope
Breaking News! Saturday July 14, 2018
All throughout the months of May, June and July, Humanoido has led the final construction of a vast new observatory. The code name for construction is Skyscraper Observatory named after the immense new high-rise building that towers up deep into the night sky.
Skyscraper Observatory
This new elevated boutique constructed skyscraper observatory structure has unusual quad wide dimensions for super stability and is located on an isolated island in the South Pacific Ocean where telescope seeing conditions are of the best in the world. Skyscraper observatory is a vast operation and is the second extremely large lifetime observatory project conducted by Humanoido.
Telescope Observatory Array
Mission control is adjacent to the outdoor telescope which is visible through an entire wall of transparent glass (with view of the telescope, majestic landscape and sky). The telescope anchors onto a suspended sky platform composed of cement, granite and wrought iron. It's sturdy structure is designed to take baking sun, rain, earthquakes and tropical storms with typhoon force winds. The telescope observatory includes a protective sub ceiling and sub lateral walls designed to withstand strong storms. The area includes running water and a three sided sub room shelter. The protective sub ceiling can shield against incoming cosmic rays.
Mission Control
The facility includes a mission control center to command the large goto digital wireless telescope, which is robotically controlled with plate solving AI and five computers. This control center includes an astronomical library, computer center, and node room for storage of telescopes and astronomical devices. Mission control is the first South Pacific Amping Telescope Center where the 46-meter Xtelescope is created and commanded. Mission Control is also the office central and corporate office for Space1 Industries in the development of safety rocket space tourism.
Main Room
Another clear glass wall from Mission Control leads to the main room, for meetings, dining, and monitoring news and weather. The main room has a wall for storage of electronics and robotics parts and is adjacent to the galley.
The Lab
This room is a laboratory for conducting work with telescopes, electronics, rockets, humanoid robots, machine life forms, and tracer drones. It also includes multiple lab benches, test equipment, library, humanoid robot showcase, and houses an inventory of rocket parts, humanoid robots, electronic parts, the Big Brain AI machine life form supercomputer, and other scientific items. Other machine life forms employed by Space1 may also work for the observatory.
Telescope Sub Portal Island
An island for the telescope is the small sub portal room. Inside are the telescope's OTA tube, 3 counterweights, mariner's chain, power supply, cables, finder scope and boxes of some big accessories. Things that don't fit are the mount, tripod and tray support, but these set next to the portal door on the floor outside, for now. The sub portal resides inside the mission control room under the steps leading to the loft. It has a floor platform and two sunken in shelves to the East.
Lofts
The observatory has three elevated high level lofts. Mission control has a monitoring loft with a wide window view of the telescope's array and the night sky. The lab has a lab loft for storage and the third loft is above the bedroom.
Inclusions
The observatory can execute highly regulated temperatures with its included four air conditioners and multiple sliding glass walls. It has three lofts, two baths, two decks, and a large elevator which rides directly to the roof for transport of telescopes and equipment for additional astronomical viewing. Here, a telescope setup shows the non-obstructed entire night sky at maximum altitude. Extra wide hall ways are for transporting wide equipment and the building employs full detail multiple security checkpoints and full time armed security guards.
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Wednesday, July 11, 2018
Space1 Pioneer Heavy Rocket Reuse
Space1 has restructured the entire Pioneer Heavy rocket fleet for reuse. Fuel tanks, nose cone, crew and payload capsule, parachute, Herculean engine, thruster, and fins are all recoverable. This includes the electronics, flight control systems and the rocket body with optics. Complimenting the Pioneer Heavy reuse configuration is the complete mobile transportable rocket launcher.
Space1 Pioneer Heavy Rocket Reuse
Space1 Pioneer Heavy Rocket Update
Space1 Pioneer Heavy Car Into Space
Space1 USS Pioneer Heavy Rocket Fairing
Space1 USS Pioneer Rocket Payload Tesla
Space1 USS Pioneer Turbocharged
Space1 USS Pioneer Rocket Checklist
Space1 Pioneer Rocket Nozzel
Space1 USS Pioneer Rocket
Space1 USS Pioneer
Space1 USS Pioneer Rocket Convention
Space1 Pioneer Heavy Rocket Reuse
Space1 Pioneer Heavy Rocket Update
Space1 Pioneer Heavy Car Into Space
Space1 USS Pioneer Heavy Rocket Fairing
Space1 USS Pioneer Rocket Payload Tesla
Space1 USS Pioneer Turbocharged
Space1 USS Pioneer Rocket Checklist
Space1 Pioneer Rocket Nozzel
Space1 USS Pioneer Rocket
Space1 USS Pioneer
Space1 USS Pioneer Rocket Convention
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