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Re: The 5 ft-packed-HG Movement

Postby JoeF » Thu Nov 28, 2024 5:42 pm

Moyes wrote:Moyes Soars Higher: In-House Carbon Production Takes Flight!
At Moyes, hang gliding is not just a business–it’s a way of life, a family,
and a shared dream of soaring to new heights. That’s why we’re thrilled
to announce a huge leap forward: we’re now producing
our own carbon components right here in our Kurnell factory!

This in-house carbon deal could affect the making of TPHGs by Moyes.
Moyes does not yet make Tiny Packed Hang Gliders.
Last edited by JoeF on Thu Nov 28, 2024 8:27 pm, edited 1 time in total.
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Re: The 5 ft-packed-HG Movement

Postby JoeF » Thu Nov 28, 2024 7:47 pm

Can we get away with "no keel"?
And no cross bar?
And no "spaneron"?
And no base "bar"?


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With survey of my notes, fallible ChatGPT wrote:Yes, it is possible to design a Tiny Packed Hang Glider (TPHG) with no keel, no crossbar, no spaneron, and no base bar, but certain design considerations must be addressed to maintain stability, control, and structural integrity.

Key Considerations for Each Omission:

---

1. No Keel:
- Impact: The keel typically provides longitudinal stability and a central mounting point for control systems.
- Solution:
  • Use a tensioned sail structure with pretensioned stay lines to maintain the shape of the wing.
  • Incorporate a central post with upper and lower tension lines or a taut fabric network to stabilize the center, similar to a HexaStay Ring approach.
  • Yaw stability can be achieved through wingtip rudder-like structures or differential wing tension.

---

2. No Crossbar:
- Impact: The crossbar traditionally provides lateral rigidity and resists wing collapse.
- Solution:
  • Rely on tensioned cables or internal bracing between leading edges to maintain structural integrity.
  • A triangular or hexagonal stay system could provide sufficient lateral support without the need for a heavy crossbar.

---

3. No Spanerons (as in Florian's TPHG)
--{error deleted}

4. No Base Bar:
- Impact: The base bar provides a control frame for pilot input and acts as a structural brace.
- Solution:
  • The cross lines in the lower rigging result in a cable being formed between the lower ends of the two queen posts. That cable, when tensioned in flight, can take control inputs from the pilot, effectively serving the role of a "base bar".

---
Benefits of This Design Approach:
- Lightweight and Compact: Reduces overall weight and improves packability.
- Minimalist Aesthetic: Simplifies construction and reduces component count.
- Enhanced Tension-Based Stability: Leverages modern materials (e.g., Dyneema or carbon fiber) for tension and compression load management.

---
Challenges:
- Structural Complexity: Requires precise tension balancing.
- Control Sensitivity: Without traditional control surfaces, pilot input systems must be highly responsive.
- Aerodynamic Efficiency: Ensuring stability without traditional elements demands innovative wing shaping and tension management.

This approach aligns well with your goal of creating a highly compact and lightweight TPHG design.
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Re: The 5 ft-packed-HG Movement

Postby JoeF » Sat Nov 30, 2024 9:03 pm

Upon feeding notes and nudging:
ChatGPT wrote:Concept: A Faux Fence that Becomes a Hang Glider

This idea involves a **functional yet hidden transformation**, where the fence appears like a normal structure until a skilled pilot arrives and begins to dismantle and repurpose its components to assemble a hang glider. The transformation would happen in a real-world context, blending everyday structures with the aviation world in a surprising way. Here's how this could work:

1. Fence Design and Functionality:
- Appearance: The fence would look entirely normal—just a sturdy, functional boundary or windbreak, blending into the environment with no obvious artistic features suggesting its alternate function. It could be made of traditional fence materials like wood, metal, or vinyl, with classic, simple slats, posts, and horizontal rails.
- Practicality: The fence would serve its everyday purpose—dividing land, acting as a privacy screen, or serving as a windbreak. The materials would be weather-resistant and durable, so the fence could function well in a variety of environments (e.g., rural, suburban, or along a hang glider flight path).

2. The Transformation Process:
When the skilled pilot arrives and begins interacting with the fence, hidden elements of the fence would be revealed as parts of the glider, cleverly integrated into the fence's design. Here's how that might work:
- Spars and Frame: Some of the vertical fence posts could be designed as telescopic tubes or segmented beams, which can be easily detached and fitted together to form the glider's spar structure. These posts could have internal couplers or joints that allow them to lock into position when assembled. The posts could be labeled or color-coded for quick recognition (e.g., A, B, C, D, etc.) to correspond with the hang glider's design.
- Crossbars and Support Rods: The horizontal beams or slats could slide out of the frame to form the crossbars that provide the necessary support for the wing structure. These could also be telescopic or break into smaller segments for compact storage within the fence itself.
- Wing Structure (Fabric): Hidden fabric or sail cloth could be stashed along the length of the fence (perhaps rolled or folded behind certain sections), which the pilot could unfurl and stretch over the frame to form the glider’s wings. The fabric might be secured by hidden clasps or Velcro to ensure the pilot can quickly attach and detach it.
- Rigging Lines: Thin, tough cords or ropes could be woven subtly within the fence structure, disguised as part of the fence itself. When the pilot arrives, they could pull out the lines from specific segments of the fence to use for the crosslines or landing lines of the glider. These cords might be cleverly concealed in a way that blends in with the fence but can easily be accessed when needed.

3. Assembly Process:
The pilot would know exactly which parts to extract and how to piece them together. The process would likely unfold as follows:
- Step 1: The pilot would begin by removing the fence posts (which are actually the spars) from their sockets or holders.
- Step 2: Next, they’d unclip or pull out the horizontal beams (crossbars), attaching them to the spar structure to form the glider's basic frame.
- Step 3: The pilot would unfurl or extract the fabric sections hidden within the fence and stretch them across the spars and crossbars to form the wing.
- Step 4: Finally, the pilot would gather the rigging lines from various parts of the fence, tying them into place to complete the glider’s control system.

4. The Hidden Design:
- Stealthy Components: The genius of this concept is that all the glider components (spars, crossbars, wing fabric, and rigging) are seamlessly incorporated into the fence. On a regular day, the fence looks like any other barrier, but when the right person arrives, the parts are perfectly hidden in plain sight.
- Modular & Concealed: The fence could be constructed with modular sections that don’t raise suspicion. For example, sections of the fence might have hinges or easy-to-remove panels, where each part of the hang glider is stored when not in use. This modular approach allows for a simple design that doesn’t give away the clever functionality until it’s time to assemble the glider.

5. The Role of the Pilot:
- A Special Skill: This design would work best with a pilot who knows the structure intimately. They might have a series of personal cues—markings on the posts, a mental map of the fence structure, or a method of accessing the right components quickly. Their role is like a "gatekeeper" of the fence, unlocking its secrets and transforming it into a flying machine.
- Impressively Efficient: The pilot would need to have a thorough understanding of the assembly process, being able to set up the glider swiftly and efficiently. The transformation would almost be like a ritual, with a sense of mystery and awe for any onlookers who watch the process unfold.

6. Additional Functionalities:
- Reversible Process: Once the flight is over, the pilot would reverse the process, breaking down the glider and storing the parts back into the fence, where they are hidden once again. This makes the fence a dual-purpose object: a boundary for everyday use and a hidden launch pad for the pilot.
- Utility & Beauty: The fence could still serve its primary function as a windbreak or divider, even while housing all the hang glider components. For a non-pilot, the fence is a mundane boundary. But for the pilot, it holds the potential for adventure and flight.

7. Possible Contexts:
- Urban or Suburban Settings: The fence could be located on a piece of property where the pilot lives or frequently passes by—perhaps a private airstrip or near an open field.
- In a Hang Glider Community: A network of these fences could exist in a glider pilot’s community, providing convenient "launch stations" that remain hidden from the casual observer.
- Exhibit or Storytelling: This setup could be used for a public art installation or an interactive exhibit where the story of a hang glider pilot is told, with the fence serving as a metaphor for hidden potential.

This concept blends functionality, creativity, and surprise, and could be a great way to explore the relationship between everyday objects and specialized uses in an exciting and unique manner.


Some downers about the idea:

1. Vandalism:
The fence could be susceptible to vandalism, as it might attract unwanted attention from individuals who might tamper with the hang glider components. Since the design involves hidden parts, someone could try to dismantle it without knowledge, or worse, intentionally damage the system.

2. Weather:
Weather conditions could negatively impact the durability of the fence and its components. Constant exposure to rain, snow, or high winds might weaken the materials used for both the fence and the hang glider parts. Corrosion, rust, or swelling of wood could occur, impacting the function of the glider components.

3. UV Wear:
The UV rays from the sun could degrade certain materials used in the construction of the fence and the glider components, such as fabric, plastic, or rubber parts. Over time, this exposure may cause fading, brittleness, or weakening of the materials, reducing the fence's and glider's lifespan.

4. Permissions:
The design might require special permissions from property owners or local authorities, especially in areas with zoning laws or strict property regulations. Depending on the location, installing such a fence could be a complicated and bureaucratic process.

5. Repair:
Ongoing maintenance and repairs could be challenging. The modular nature of the fence/glider system might require special knowledge to fix, and parts might not always be easy to replace. If something breaks or wears out, the pilot might face difficulty finding the right replacements, especially if the components are custom-designed.

6. Animals:
Animals, whether pets or wildlife, could potentially damage the fence or interact with the glider parts in unintended ways. This could be particularly problematic if animals try to chew on the materials or disrupt the modular sections of the fence. In rural or farm environments, for example, animals might inadvertently dismantle parts of the setup.
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Re: The 5 ft-packed-HG Movement

Postby JoeF » Sun Dec 01, 2024 5:59 pm

FenceHiddenHG.JPG
Not very subtle hiding of parts!
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I had a good laugh as the AI assistant produced a more hidden fenced hang glider:
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Re: The 5 ft-packed-HG Movement

Postby JoeF » Mon Dec 02, 2024 9:49 am

AI fantasy:
FenceFantasyAI.JPG
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=============================
Once one has a TPHG and gets to fly, there is a launch:

Using my worded promps: AI assistant says:
Hang Glider Launch Types

A hang glider launch involves the pilot running or walking to generate enough speed for the glider to become airborne. The launch process can vary depending on the terrain, wind conditions, and the type of launch being used. Here's a breakdown of different types of hang glider launches:

  1. Foot Launch
    Definition: A quick, explosive movement where the pilot runs on the ground, carrying the glider, until enough speed is gained for the wing to lift off and the pilot becomes airborne.
    Purpose: The most common form of launch, especially from hills or mountains.
    Key Characteristics: The pilot uses their legs to generate forward motion and lift the glider. It’s vital to get the angle of attack and body posture correct for a smooth, safe takeoff.
    Example: A pilot running down a hill with the glider in hand, lifting off once enough airspeed is generated.
  2. Tow Launch
    Definition: The pilot is towed into the air by a vehicle (car, boat, or aircraft) via a towline, and once they reach the desired altitude or speed, they release the towline to fly freely.
    Purpose: Used when launching from flat terrain or in areas where foot launching would be difficult due to lack of elevation or suitable conditions.
    Key Characteristics: The pilot is towed into the air, and the towline is released once the glider is high enough or has reached the correct flying speed.
    Example: A glider being towed by a truck on a flat runway before the pilot releases the towline to begin soaring.
  3. Winch Launch
    Definition: A form of tow launch where a motorized winch on the ground pulls the glider into the air via a cable. Once the desired altitude or speed is reached, the pilot releases the winch cable.
    Purpose: Similar to tow launch but more commonly used at airports or dedicated flying sites with a winch setup.
    Key Characteristics: The winch is a stationary system that pulls the glider along the ground before it becomes airborne. It can provide faster launches and can be done in more controlled settings.
    Example: A hang glider being pulled by a winch on a field, reaching enough altitude and speed to release the cable.
  4. Mountain Launch (Foot Launch from a Mountain)
    Definition: A launch from a high point on a mountain or hill where the pilot runs downhill to generate speed for takeoff.
    Purpose: One of the most common launch types for cross-country and recreational hang gliding.
    Key Characteristics: The natural elevation provides the necessary height to glide, and the pilot’s running effort is combined with wind conditions to get airborne. A steep, clear launch site is necessary.
    Example: A hang glider pilot running down a mountain slope, using the wind to aid in takeoff.
  5. Cliff Launch
    Definition: A type of launch where the pilot runs off a cliff edge into the air, relying on updrafts or wind conditions to help them stay airborne.
    Purpose: Often used in areas where steep cliffs are present, providing immediate lift from wind currents or thermals.
    Key Characteristics: No running is required, as the pilot simply steps off the edge of the cliff. Skillful use of wind currents or thermals is crucial.
    Example: A pilot jumping off the edge of a cliff, immediately finding an updraft to stay aloft.
  6. Aerotow Launch
    Definition: A launch where the hang glider is towed by an aircraft (usually a light plane or helicopter) to gain altitude. Once the glider has reached the desired height, the towline is released.
    Purpose: Provides a quick way to gain altitude without needing the right terrain for a foot launch.
    Key Characteristics: This launch method involves being towed by an aircraft, often used in competitions or when there’s little wind.
    Example: A hang glider being towed by a plane, and after reaching the necessary altitude, the pilot releases the towline and continues to glide.

Key Aspects of a Hang Glider Launch:
  • Wind Conditions: Wind is essential for a successful launch. A headwind (wind blowing toward the pilot) helps generate lift. In crosswind or no wind conditions, a foot launch can be difficult, and tow or winch launches are preferred.
  • Takeoff Speed: The pilot must accelerate enough for the wing to generate lift. The speed is usually achieved through running or towing.
  • Body Positioning: For a successful launch, the pilot must maintain a proper body position. In a foot launch, this involves leaning slightly forward, holding the control frame of the glider securely, and being ready for the glider to lift.
  • Launch Site: A good launch site provides a combination of elevation, wind direction, and clear space for takeoff. The site must be free of obstacles and offer enough distance for acceleration.

Each launch method requires different skills, equipment, and environmental conditions, but they all have in common the goal of getting the glider into the air safely and efficiently.

================================
Birth of the HG launch?
Distinguishing Different Terms for Jumping and Airborne Movements

When discussing various movements that involve launching oneself off the ground and into the air, different terms describe the specific style, mechanics, or purpose of the motion. Here’s a breakdown of some common terms related to jumping and other airborne movements:

  1. Vertical Jump
    Definition: A movement where a person propels themselves vertically into the air by pushing off the ground with both feet.
    Key Characteristics: Often performed as part of a test or drill for assessing leg power, with a focus on how high a person can jump from a standstill position.
    Example: A basketball player attempting to jump high to reach the basket.
  2. Vertical Hop
    Definition: A short and controlled upward movement where the person hops straight up and lands on the same spot, often repeatedly.
    Key Characteristics: The hop is typically lower than a full vertical jump and often used in exercises to improve explosive power and coordination.
    Example: Performing vertical hops as part of a plyometric workout.
  3. Hop
    Definition: A small jump or leap, usually involving one foot pushing off the ground to propel the body upwards.
    Key Characteristics: Hopping is often done on one leg, and the focus is on minimal height but rapid repetition.
    Example: Hopping over a small obstacle or during agility drills.
  4. Hopping
    Definition: The action of hopping repeatedly, often done on one foot.
    Key Characteristics: Hopping involves repeated, short jumps, with a focus on agility, coordination, or endurance.
    Example: A drill where athletes hop from one point to another, alternating feet.
  5. High Jump
    Definition: A track-and-field event where athletes jump over a high bar, attempting to clear the highest height without knocking the bar off its stand.
    Key Characteristics: The athlete runs towards a bar and jumps to clear it using a technique such as the Fosbury Flop.
    Example: A track-and-field athlete attempting to jump over a bar set at a specific height.
  6. Pole Vault
    Definition: An event in which an athlete uses a pole to vault themselves over a high bar.
    Key Characteristics: This movement involves using a pole to gain height and clear a bar, with an emphasis on the technique of using the pole to generate upward momentum.
    Example: An athlete using a pole to vault over a bar in a pole vault competition.
  7. Leap
    Definition: A long jump from one point to another, typically involving a push-off with both legs.
    Key Characteristics: Leaps are often longer than jumps, focusing on distance rather than height.
    Example: A long jump or a leap over a wide gap.
  8. Skim
    Definition: A light, almost hovering motion where the person stays just above the ground, often seen in gliding or skipping.
    Key Characteristics: Skimming involves minimal height with a fluid or smooth motion, often with the body remaining close to the surface.
    Example: Skimming stones across water or skipping lightly on the surface.
  9. Jump
    Definition: A general term for propelling oneself into the air by pushing off with the legs, which may involve a variety of heights, distances, and techniques.
    Key Characteristics: Jumping can refer to a wide range of airborne movements and is the broadest term for vertical and horizontal movements off the ground.
    Example: A person jumping to avoid an obstacle or to reach something high.

Summary of Differences:
  • A **vertical jump** refers to a straight-up motion, typically with both feet, used in testing leg strength or explosiveness.
  • A **vertical hop** involves a short, repeated upward movement and is lower than a full jump.
  • **Hop** and **hopping** both describe small, repeated jumps, often done on one foot.
  • The **high jump** and **pole vault** are specific competitive events focused on clearing a bar, with the pole vault involving the use of a pole.
  • A **leap** is more focused on distance, often involving a longer push-off to clear a gap or distance.
  • **Skim** typically refers to light, hovering movements that stay close to the ground or surface.
  • The broad term **jump** can refer to any action of leaving the ground, whether vertically or horizontally.

Each of these terms refers to a specific motion with subtle differences in technique, purpose, and context, but all involve a form of launching oneself off the ground and into the air.
========================
========================
Filler, credit Tom O'Brien: https://scontent-lax3-2.xx.fbcdn.net/v/ ... e=67539D51
Related to the 2000 meet: https://www.latimes.com/archives/la-xpm ... story.html
================================
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