Introduction
Portable laser destruction equipment Laser destruction equipment has diverse applications, primarily in the following fields:
1. Military field:Unexploded ordnance disposal: After military training, exercises, or actual combat, some unexploded ordnance may remain on the battlefield, posing a serious threat to the safety of personnel and equipment. Laser destruction equipment can remotely and non-contactly destroy unexploded ordnance from a safe distance, reducing the risk of explosive ordnance disposal operations and ensuring the safety of disposal personnel. For example, it can destroy various calibers of conventional ammunition for the army, such as artillery shells, rifle grenades, mortar shells, etc.Destruction of obsolete ammunition: The military has a large amount of expired and scrapped ammunition that needs to be disposed of. Traditional methods of ammunition destruction may pose safety hazards, whereas laser destruction equipment can precisely destroy obsolete ammunition, reducing the occurrence of accidents such as explosions.2. Public security and armed police forces: • Hazardous explosives disposal: Public security and armed police forces may encounter confiscated hazardous explosives and improvised explosive devices in their daily work. The disposal of these items requires high safety and professionalism. Laser destruction equipment can dispose of these hazardous explosives at a distance, avoiding direct contact with hazardous explosives, detonators, detonating cords, and other explosive items, thus improving operational safety.
Application
Purpose of Laser Destructor The basic principle of laser is the emission of photons through stimulated radiation. Under specific conditions, these photons can form a high-intensity light beam. Leveraging this characteristic, a laser destructor focuses the laser onto a tiny spot to generate extremely high energy density. When the laser irradiates the target object, it rapidly heats the local area, raising the temperature to the melting or boiling point of the material, thereby achieving vaporization or incineration of the substance.
A laser destructor is mainly composed of a laser generator, optical system, cooling system and control system. The laser generator is the core component of the entire equipment. Common types include solid-state lasers, gas lasers and fiber lasers. Different laser generators feature distinct wavelengths and properties, applicable to various materials and application scenarios.
The optical system is designed to focus the laser beam onto the target. It generally consists of lenses and mirrors. With sophisticated optical design, the laser beam can be condensed into an extremely small spot to form a laser spot with high energy density. Adjusting the focal position and spot size is the key to precise destruction.
The cooling system prevents the laser device from overheating during operation and guarantees the stability and safety of the equipment. A high-power laser destructor generates massive heat while working, hence efficient heat dissipation measures such as water cooling or air cooling systems are required.
The control system manages the overall operation of the laser destructor, including laser on/off, power regulation, and adjustment of beam focal position. Modern laser destructors are usually equipped with computerized control systems to realize automatic operation and improve working efficiency.
Laser destructors have a wide range of application fields, mainly covering industry, military, environmental protection and other sectors. In the industrial field, they are used for long-distance remote cutting and remote punching. In military applications, laser destructors are adopted to destroy enemy equipment, drones, unexploded ordnance and other targets. Its precision strike capability makes it an indispensable tool in modern warfare.
In terms of environmental protection, laser destructors can be applied to waste disposal, especially the destruction of hazardous waste. Traditional incineration usually produces harmful gases, while laser destructors can completely decompose waste at high temperatures and reduce environmental pollution.Practical Value of Laser Unexploded Ordnance Disposal Device in Multiple Scenarios
1)Bomb Disposal on Battlefields Unexploded ordnance may be scattered in war zones or post-war residual areas on the battlefield. Laser technology enables rapid and precise destruction of unexploded ordnance and reduces personnel risks.
2)Waste Disposal In the cleanup of obsolete ammunition and military waste, laser technology can efficiently neutralize residual ammunition and ensure operational safety.
3)Critical Infrastructure Protection Unexploded ordnance may pose threats near vital infrastructure. Laser destruction provides a non-destructive disposal method, minimizing impacts on the surrounding environment and building structures.
Parameter
Product Features The laser demolition tool set is primarily designed for emergency rescue scenarios, specifically for demolition and obstacle removal tasks within a range of 500 meters, targeting various materials such as steel plates, aluminum plates, steel bars, color steel tiles, trees, plastics, and ice. It can automatically focus the high-energy laser beam onto the target point for burning, piercing, or cutting, based on the target's distance. 1.The remote control distance is long, reaching up to 800 meters, enabling long-distance destruction. The operating distance can range from 10 to 300 meters; 2.It can be used independently or mounted on a vehicle, with diversified laying methods; 3.Short charging time, and high usage frequency after charging; 4.The laser has high output power, excellent beam quality, and a compact size; 5.Stable performance, low failure rate, and good safety. 6.laser power:800W/1200W/1500W/2000W/3000W
Laser Destruction and Explosive Disposal Equipment
1)Laser equipment output power: 800–3000W.
2)Output fiber core diameter of laser: ≤20μm.
3)Laser beam diameter at 100m: ≤20mm.
4)Laser operating distance: ≥300m.
5)Laser emission remote control distance: ≥300m.
6)Laser ranging error: ranging error ≤1m at 500m.
7)Working time of lithium battery for laser equipment: continuous laser emission ≥30 minutes, standby duration no less than 5 hours.
8)Failure-free laser emission times: ≥5000 times.
9)The laser transmitter adopts audible warning reminder.
10)Aiming stability and pointing accuracy of laser emission: aiming deviation ≤2mm at 300m.
11)The laser emitting head is equipped with night vision function, with a night vision distance ≥100m.
12)The control terminal has a video recording function, which can record the entire operation process.
13)Camera magnification of laser equipment: optical zoom ≥60×.
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