Anti personal mine clearing vehicle

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1.  WIRELESS CONTROLLED LANDMINE CLEARING VEHICLE 

A mine flail is a vehicle-mounted device that makes a safe path through a minefield by deliberately detonating landmines in front of the vehicle that carries it. 

The mine flail consists of a number of heavy rollers ending in fist-sized steel balls (flails) that are attached to a horizontal, rapidly rotating rotor mounted on two arms in front of the vehicle. The rotor's rotation makes the flails spin wildly and violently pound the ground. The force of a flail strike above a buried mine mimics the weight of a person or vehicle and causes the mine to detonate, but in a safe manner that does little damage to the flails or the vehicle. 

Feature

1. Wireless controlled

2. 450 kg weight

3. 20km working range

4. 1km wireless control range

5. Used to clear m14 anti personal mines

 The demining robot can be deployed in mine reconnaissance and area clearance operations to detect and remove explosive ordnance and anti-personnel / anti-tank mines. It also minimises risks caused by unexploded ordnance and other dangerous objects. 

Feature

1. Wireless controlled.

2. 4000 kg weight.

3. Hydraulic drive..

4. 1km wireless control range.

5. Used to clear anti tank mines.

6. tracked robot.

7. 10 HP diesel engine

 Unmanned Ground Vehicles (UGVs) have emerged as crucial assets in the realm of defense, offering a multitude of advantages to military operations. These robotic vehicles are designed to operate autonomously or under remote control, making them ideal for a wide range of tasks on the battlefield. UGVs can be equipped with advanced sensors and cameras, enabling them to conduct reconnaissance missions in high-risk environments without putting human soldiers in harm's way. They are also employed for explosive ordnance disposal, clearing improvised explosive devices, and even providing logistical support by transporting supplies across challenging terrains. Additionally, UGVs can serve as force multipliers, enhancing the effectiveness of infantry units by providing additional firepower or acting as mobile cover. In the modern era of warfare, UGVs have become indispensable assets, augmenting the capabilities of armed forces and improving their overall operational effectiveness while reducing the risk to human lives. 

Feature

1. Wireless controlled 2KM range.

2. 80 kg weight carrying capacity.

3. four wheeled  drive.

4. Day / night vision camera.

5. 8 Inch wheel diameter.

6. Metal rugged body.

7. Lifepo4 battery pack of 25.6 v 24 AH.

8. Max speed of 15km/hr.

Applications

1. Suicidal robot.

2. Monitoring and surveillance.

3. Payload carrying vehicle.

4. Lastmile ammunition delivering vehicle.

The M14 mine"Toepopper" is a small (56 mm [2.2 in] diameter) anti-personnel land mine first deployed in 1955.The M14 mechanism uses a belleville spring to flip a firing pin downwards into a stab detonator when pressure is applied. Once deployed, the M14 is very difficult to detect because it is a minimum metal mine, i.e. most of its components are plastic. Because of this, the design was later modified to ease mine clearance with the addition of a steel washer, glued onto the base of the mine.

The present invention relates to a mock landmine for landmine detection training. More specifically, the present invention allows a user, when being trained to detect landmines of a non-metallic material, to stably conduct landmine detection training using the mock landmine having the same appearance and structure as a real landmine. At the same time, by providing a measurement environment similar to a real landmine, user′s training effect can be increased. The mock landmine for landmine detection training includes: non-metallic bodies (20, 30, 40, 50, 60); and mock fuses (223, 32, 45, 55, 65).

Features

1. Plastic body.

2. Buzzer circuit inbuilt which creates sound after trigger.

3. M14 mine with 9v replaceable or chargeable battery.

4. With easy repairable circuit .

The M16  is bounding anti-personnel mine. The mine consists of a cast iron body in a thin steel sleeve. A central fuze well on the top of the mine is normally fitted with a pronged M605 pressure/tension (tripwire) fuze. Sufficient pressure on the prongs or tension on an attached tripwire causes the release of a striker. The freed striker is forced into a percussion cap which ignites a short pyrotechnic delay. The purpose of this delay is to allow the victim to move off the top of the mine, to prevent its upward movement from being blocked. Once the delay has burned through, a 4.5-gram black powder charge is ignited, which launches the inner iron body of the mine up into the air (leaving behind the steel outer sleeve). The charge also ignites a second pair of pyrotechnic delays. 

The mine rises to a height of 0.3 to 1.7 meters before one or both of the pyrotechnic delays detonates the main charge of the mine, which sprays high-speed metal fragments 360° around the point of detonation. These metal fragments have an expected casualty radius of 27 meters for the M16 and M16A1 mines, and out to 30 meters for the M16A2 mine. 

The present invention relates to a mock landmine for landmine detection training. More specifically, the present invention allows a user, when being trained to detect landmines of a non-metallic material, to stably conduct landmine detection training using the mock landmine having the same appearance and structure as a real landmine. At the same time, by providing a measurement environment similar to a real landmine, user′s training effect can be increased. The mock landmine for landmine detection training includes: non-metallic bodies (20, 30, 40, 50, 60); and mock fuses (223, 32, 45, 55, 65).

Features

1. Metal body.

2. Buzzer circuit inbuilt which creates sound after trigger.

3. M14 mine with 9v replaceable or chargeable battery.

4. With easy repairable circuit .