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WT1000
GUOXING
W T 1 0 0 0 provides users with intelligent and efficient mobile defense and investigation services.
Autonomous unmanned ground vehicle
Fully autonomous patrolling
Panoramic video surveillance system
4-wheel drive, Independent suspension
Automatic obstacle avoidance function.
In-situ turning
Replace tires quickly in the field and special environment.
Relatively compact
Warning and shouting, audible and visual electric bell and strong light lighting.
Biometric function
Environment map self-learning.
The battery can be quickly removed and replaced
Self charging
Different configurations can be selected:
Configuration 1: The defense system can achieve ± 45 ° rotation and 0~+30 ° pitch.
With high-pressure water pump, it can attack the enemy at 7~10 meters in an ideal environment;
At the same time, it is equipped with a micro dry powder system, which can spray enemies at close range or spray small fires at the initial stage.
Configuration 2: Catch net gun.
The best effective distance for firing is 8-10M.
At 4M, the net rope will open gradually, and the catch net can be recovered for reuse.
Configuration 1
With liquid & dry powder gun
Configuration 2
With catching net gun
Robots are used to guard and protect various types of companies, including those in the industrial, commercial, and utility sectors.
These robots are responsible for patrolling the perimeters of the areas they are assigned to, ensuring security and safety.
They are also employed for nighttime security at amusement parks, providing an extra layer of protection.
Industrial facilities, such as manufacturing plants and warehouses, benefit from the presence of guard robots to enhance security measures.
Parking lots are another area where these robots can be deployed to monitor and safeguard the premises.
In addition, guard robots are utilized in high-risk environments like chemical plants, oil and gas facilities, as well as solar farms and photovoltaic power plants.
Critical infrastructure, such as power plants and transportation hubs, also rely on guard robots for physical security.
Furthermore, resorts, golf courses, and beach patrols can benefit from the services provided by these robots, ensuring the safety and well-being of visitors.
Item | Specifications | |
Power | 800W | |
Working ambient temperature | -5℃~45℃ | |
Weight quality | 77kg | |
Suspension system | Front and rear double wishbone independent suspension damping | |
Minimum turning radius | In situ rotation | |
Driving form | Four wheel independent drive | |
Operation speed | 0~1.7m/s | |
Max obstacle height | ||
Max climbing ability | 30° | |
Remote distance | ||
Working hour | 6H Normal temperature 6H | |
Charger | AC220V independent charger | |
Charging time | 4~5h | |
Communication interface | WIFI 2.4G | |
Braking distance | ||
Remote control function | Yes | |
Protection grade | IP65 | |
Dimension | Dimension | 1016*740*600mm |
Mini ground clearance | 100mm | |
Material | Suspension | Aluminium alloy |
Body | Steel plate | |
Tyre | Quality rubber | |
Surface treatment | Spray | |
Battery | Type | Lithium battery |
Capacity | 50AH | |
Pressure | 24V | |
Injection system | Injection angle | Rotation:±45° |
Pitch:0~+30° | ||
Injection distance | 7~10m | |
Pump pressure | 5.5Kg | |
Catch met gun | Mesh specification | 3*3M |
| Mesh hole specification | 15*15CM | |
| Effective launchdistance | 8-10M | |
| Optimal capture distance | 4-10M | |
| Operating ambient temperature | -5`49 ℃ | |
Auto Navigation
Integrated navigation positioning accuracy < 4cm
With LIO (3D multi line laser) navigation system
Equipped with IO+RTK navigation system
Equipped with LIO+RTK navigation system
Three navigation systems can be selected randomly according to actual working conditions
Provide robot with high-precision automatic driving experience.
City Safety System
The robot has its own biometric function, all-round spraying function,
Audible and visual alarm function,
Voice call function,
Provide strong screening and output guarantee for reconnaissance work.
Lane Keeping System
Through self-learning environment map and road network planning, the robot can keep driving on the map according to the pre planned path.
Road Deviation Warning
Through self-learning of environment map and road network planning, the robot can achieve centimeter level positioning and stop early warning on the road route.
Remote control mode
The robot can be controlled by a hand-held remote controller to realize the motion control of the whole robot and the triggering of each executive unit mechanism.
Automatic driving mode
The robot can be controlled through the PC supporting upper computer to realize the map construction, path planning and autonomous navigation of the robot.
Automatic patrol mode
The robot can be controlled through the PC terminal supporting the upper computer to realize the configuration of robot patrol tasks and complete the routing, timing and fixed-point patrol work in the fixed park
LIO Navigation
LIO-SLAM is a great choice for integrating multiple sensors. It is a system that combines lidar and inertial measurements to create real-time maps and estimate the state of an environment, especially in complex situations.
RTK Navigation
RTK technology, also known as real-time kinematic, is a method that processes real-time carrier phase observations from two measuring stations. The reference station collects the carrier phase data and sends it to the user receiver for coordinate calculations.
W T 1 0 0 0 provides users with intelligent and efficient mobile defense and investigation services.
Autonomous unmanned ground vehicle
Fully autonomous patrolling
Panoramic video surveillance system
4-wheel drive, Independent suspension
Automatic obstacle avoidance function.
In-situ turning
Replace tires quickly in the field and special environment.
Relatively compact
Warning and shouting, audible and visual electric bell and strong light lighting.
Biometric function
Environment map self-learning.
The battery can be quickly removed and replaced
Self charging
Different configurations can be selected:
Configuration 1: The defense system can achieve ± 45 ° rotation and 0~+30 ° pitch.
With high-pressure water pump, it can attack the enemy at 7~10 meters in an ideal environment;
At the same time, it is equipped with a micro dry powder system, which can spray enemies at close range or spray small fires at the initial stage.
Configuration 2: Catch net gun.
The best effective distance for firing is 8-10M.
At 4M, the net rope will open gradually, and the catch net can be recovered for reuse.
Configuration 1
With liquid & dry powder gun
Configuration 2
With catching net gun
Robots are used to guard and protect various types of companies, including those in the industrial, commercial, and utility sectors.
These robots are responsible for patrolling the perimeters of the areas they are assigned to, ensuring security and safety.
They are also employed for nighttime security at amusement parks, providing an extra layer of protection.
Industrial facilities, such as manufacturing plants and warehouses, benefit from the presence of guard robots to enhance security measures.
Parking lots are another area where these robots can be deployed to monitor and safeguard the premises.
In addition, guard robots are utilized in high-risk environments like chemical plants, oil and gas facilities, as well as solar farms and photovoltaic power plants.
Critical infrastructure, such as power plants and transportation hubs, also rely on guard robots for physical security.
Furthermore, resorts, golf courses, and beach patrols can benefit from the services provided by these robots, ensuring the safety and well-being of visitors.
Item | Specifications | |
Power | 800W | |
Working ambient temperature | -5℃~45℃ | |
Weight quality | 77kg | |
Suspension system | Front and rear double wishbone independent suspension damping | |
Minimum turning radius | In situ rotation | |
Driving form | Four wheel independent drive | |
Operation speed | 0~1.7m/s | |
Max obstacle height | ||
Max climbing ability | 30° | |
Remote distance | ||
Working hour | 6H Normal temperature 6H | |
Charger | AC220V independent charger | |
Charging time | 4~5h | |
Communication interface | WIFI 2.4G | |
Braking distance | ||
Remote control function | Yes | |
Protection grade | IP65 | |
Dimension | Dimension | 1016*740*600mm |
Mini ground clearance | 100mm | |
Material | Suspension | Aluminium alloy |
Body | Steel plate | |
Tyre | Quality rubber | |
Surface treatment | Spray | |
Battery | Type | Lithium battery |
Capacity | 50AH | |
Pressure | 24V | |
Injection system | Injection angle | Rotation:±45° |
Pitch:0~+30° | ||
Injection distance | 7~10m | |
Pump pressure | 5.5Kg | |
Catch met gun | Mesh specification | 3*3M |
| Mesh hole specification | 15*15CM | |
| Effective launchdistance | 8-10M | |
| Optimal capture distance | 4-10M | |
| Operating ambient temperature | -5`49 ℃ | |
Auto Navigation
Integrated navigation positioning accuracy < 4cm
With LIO (3D multi line laser) navigation system
Equipped with IO+RTK navigation system
Equipped with LIO+RTK navigation system
Three navigation systems can be selected randomly according to actual working conditions
Provide robot with high-precision automatic driving experience.
City Safety System
The robot has its own biometric function, all-round spraying function,
Audible and visual alarm function,
Voice call function,
Provide strong screening and output guarantee for reconnaissance work.
Lane Keeping System
Through self-learning environment map and road network planning, the robot can keep driving on the map according to the pre planned path.
Road Deviation Warning
Through self-learning of environment map and road network planning, the robot can achieve centimeter level positioning and stop early warning on the road route.
Remote control mode
The robot can be controlled by a hand-held remote controller to realize the motion control of the whole robot and the triggering of each executive unit mechanism.
Automatic driving mode
The robot can be controlled through the PC supporting upper computer to realize the map construction, path planning and autonomous navigation of the robot.
Automatic patrol mode
The robot can be controlled through the PC terminal supporting the upper computer to realize the configuration of robot patrol tasks and complete the routing, timing and fixed-point patrol work in the fixed park
LIO Navigation
LIO-SLAM is a great choice for integrating multiple sensors. It is a system that combines lidar and inertial measurements to create real-time maps and estimate the state of an environment, especially in complex situations.
RTK Navigation
RTK technology, also known as real-time kinematic, is a method that processes real-time carrier phase observations from two measuring stations. The reference station collects the carrier phase data and sends it to the user receiver for coordinate calculations.
