Modular protective cover

Proter Module

1. Basic structure of modular protection unit

Unit size: Each protective unit is a square or polygon of 1 meter x 1 meter, which can be cut or adjusted to different shapes as needed, such as triangles, hexagons, etc.

Unit material: composed of multi-layer nano-alloy materials and quantum energy field technology, it has high elasticity and toughness, as well as transparency and solidity.

Unit weight: Each unit is lightweight, about 5-10 kg, making it easy to carry and deploy quickly.

2. Unit connection and combination

Magnetic coupling connection:

There is a strong magnetic coupler on the edge of each unit, which can quickly connect with adjacent units to form a stable connection structure.

The magnetic strength can be adjusted to suit different connection needs, such as being fixed on the wall or forming a suspended structure.

Automatically adjust edges:

The unit edges have an automatic adjustment mechanism that adjusts the angle and length to accommodate irregular building shapes or object surfaces.

Adaptation angle: Edge adjustment capability up to 90 degrees, and able to adapt to uneven surfaces.

3. Energy field technology

Nano Energy Field Generator:

Each unit is embedded with a nano-energy field generator that can generate a protective energy field to prevent physical attacks (such as bullets, fragments) and energy attacks (such as lasers, electromagnetic waves).

Energy field strength: Adjustable energy field strength, ranging from low power (only protection against minor impacts) to high power (protection against high-energy weapon attacks).

Automatic energy replenishment system:

Units have built-in energy cells that can harvest energy from the surrounding environment (e.g., solar, wind) or share energy by connecting neighboring units.

4. Intelligent monitoring and control system

Unit built-in AI module:

Each unit is equipped with an independent AI module, which can instantly sense changes in the surrounding environment and automatically adjust protection strategies and energy output.

Cluster intelligent control: Multiple connected units can form an intelligent cluster and work together to resist more powerful attacks or perform regional protection.

Remote control and management:

The shield unit can be controlled remotely via a mobile device or central control system. The status of each unit (e.g. energy level, connection status) can be monitored and managed in real time.

5. Self-repair and maintenance

Nano repair technology:

The unit is embedded with nano-repair technology. When the surface of the unit is damaged, the nano-materials can quickly repair surface cracks and damage.

Self-diagnostic capabilities: The unit has self-diagnostic capabilities that detect internal damage and automatically repair it.

Module replacement and upgrade:

Each protection unit is designed as a pluggable structure, making it easy to replace damaged units or upgrade new technology units.

6. Protection modes and functions

Three main protection modes:

Static mode: Provides basic protection and is used in daily conditions or low-risk environments.

Dynamic Mode: Automatically strengthens the protective field strength and thickness when threats (such as strong winds, flying objects, attacks, etc.) are detected.

Attack Counterattack Mode: When under sustained attack, the shield can use energy fields to counterattack (such as releasing electromagnetic pulses or reverse energy beams).

Adaptive enhancement features:

It can automatically adjust the hardness, transparency and energy field density of the unit according to environmental changes to ensure the best protection effect in various climates and environments.

7. Application scenarios

Building protection: It can be applied to high-rise buildings, office buildings, residential areas, etc., and can be flexibly combined to form overall protection or fixed-point protection for important facilities.

Military facilities: Rapidly deployed in bases or battlefields to build temporary protective walls or shelters.

Vehicle protection: Temporary protective structures that can be used for vehicles, aircraft, ships and other vehicles to deal with sudden dangers.

Disaster emergency: Suitable for emergency protection during natural disasters, such as hurricanes, earthquakes or fires.

8. Extensibility and compatibility

compatibility:

The protection unit is compatible with different external devices and systems, such as communication equipment, environmental monitoring sensors, etc., to form a more comprehensive defense network.

Scalability:

The shield's reach can be easily expanded as needed, from a single building to an entire area, with the simple addition or removal of modules.

9. The difference between high-end and low-end

1. Material quality and technical level

Low end:

Material selection: The use of more conventional high-strength nanomaterials can provide basic protective effects, but their performance is slightly inferior in terms of impact resistance, durability, light transmittance, etc.

Energy field technology: The energy field generator is relatively simple, has low power and stability, and is suitable for lower-level protection needs.

AI module and control system: Using the basic AI control module, the function is relatively simple and can only perform basic threat detection and energy field adjustment.

High end:

Material selection: Use more advanced composite nano-alloy materials that provide greater durability, impact resistance and ballistic resistance while maintaining a certain level of transparency.

Energy field technology: Equipped with a high-power, multi-band energy field generator, which can adaptively adjust the field strength for different types of attacks, and has stronger anti-interference capabilities and stability.

AI module and control system: Built-in high-end AI module, with stronger self-learning and adjustment capabilities, can respond to multiple threats and environmental changes more intelligently.

2. Function and scalability

Low end:

Fewer functions: Only basic protection modes are provided, such as static and simple dynamic protection modes, and complex intelligent counterattacks are not possible.

Limited expandability: The connection and expansion functions with other units are relatively simple, and the connection strength and stability are limited.

Maintenance method: Relying on manual inspection and simple maintenance. There is no automatic repair function and only remote software updates.

High end:

Advanced functions: equipped with intelligent counterattack mode, automatic adaptation mode and multi-layer protection mechanism. Able to proactively identify, track and counter threats.

High scalability and compatibility: It supports more expansion options, can better adapt to different environments and scenarios, and is compatible with a variety of external devices, such as environmental sensors, communication equipment, etc.

Automatic repair and upgrade: Built-in nano self-healing technology can quickly recover after damage, and can upgrade software and hardware functions through remote updates.

3. Production process and quality control

Low end:

Production process: Using simpler manufacturing techniques and processes, the production cost is lower, but the accuracy and quality control are relatively average.

Quality control: Only basic quality inspections and tests are performed, and product reliability is slightly lower.

High end:

Production process: The use of advanced manufacturing technology and precision craftsmanship ensures a high degree of consistency and performance of each unit.

Quality control: Conduct multi-level testing and quality assurance, including comprehensive testing on durability, performance, stability, etc., to ensure the highest product quality and reliability.

4. Market positioning and degree of customization

Low-end: For users or markets with general needs, such as personal protection, general building protection, etc., the design is relatively standardized.

High-end: Provide a higher degree of customized choices and services for users with high-end needs or special markets, such as military purposes, facilities with high security requirements, etc.

10. Price

Low end: NT$3,300

High-end: NT$8,700