| Pursuing excellence in Aerial Work Vehicle |
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Product description |
| Name of the manufacturer |
Hubei Tri-Ring Motor Co.,Ltd. |
| Vehicle model |
STQ5040XJXST6 Pumping Unit Maintenance Vehicle |
| Basic parameters of vehicle |
Drive form |
4×2 |
| Total mass (kg) |
4495 |
| Curb weight (kg) |
4300 |
| Overall appearance parameters of the vehicle |
Length (mm) |
5995 |
| Width (mm) |
2200 |
| Height (mm) |
2910 |
| Wheelbase (mm) |
3360 |
| Performance parameters |
Maximum speed (km/H) |
89 |
| Maximum gradeability (°) |
30% |
| Chassis configuration parameters |
Engine |
Engine emission standards |
Europe |
| Manufacturer |
Yuchai./Yunnei |
| Displacement (L) |
2.5L |
| Rated power (Kw) |
101-123 |
| Chassis configuration parameters |
Cab |
Type |
Single row flat top cab |
| Model |
F1 (1750) (1.75 m wide) |
| Standard configuration |
Bluetooth radio, laminated glass, electric door and window, wide bumper, central locking |
| Gearbox |
Gearbox type |
Manual, 8th gear |
| Front axle |
Type |
Drum brake |
| Loadable mass (kg) |
2200 |
| Rear axle |
Type |
Drum brake |
| Loadable mass (kg) |
6000 |
| Speed ratio |
6.33 |
| Chassis configuration parameters |
Frame |
Section size (mm) |
192×65×(6+4) |
| Leaf spring |
Number of pieces |
5 front springs, 7 + 5 rear springs |
| Tire |
Type |
Steel Wire Tyre |
| Quantity |
6 |
| Model |
7.00R16-8 |
| Steering system |
Type |
Hydraulic power steering system |
| Braking system |
Brake type |
Drum brake with ABS anti-lock brake system |
| Type of service brake system |
Double circuit air brake |
| Type of parking brake system |
Spring Brake |
| Parking control type |
Hand brake control |
| Electrical system |
System voltage |
24V |
| Battery |
70 AH double battery |
| Upload configuration parameters |
Work Platform |
Plate size (mm) |
3500×2100 |
| Working height (m) |
19 |
| Working range (m) |
14 |
| Slewing device |
360 ° rotation |
| Lifting capacity (kg) |
4000 |
| Other configurations |
Warning triangle, tool kit, ABS, air conditioning. |
Pursuing excellence in Aerial Work Vehicle
The main advantages of aerial work vehicles
The core advantages of aerial work vehicles are reflected in safety, efficiency, flexibility, and industry adaptability, specifically manifested as:
Comprehensive security design
The Aerial Work Vehicle adopts multiple protection mechanisms such as anti rollover control system, work arm locking device, and seat belt to ensure the safety of operators. The hydraulic system can prevent overloading and enhance chassis stability by designing a lower center of gravity, reducing the impact of crosswinds. The platform is equipped with protective barriers and automatic locking functions to prevent accidental slipping.
Efficient homework ability
The aerial work vehicle telescopic arm structure supports multi angle rotation and height adjustment, which can quickly and accurately complete high-altitude tasks such as street lamp installation and power maintenance. Compared with traditional scaffolding, it does not require construction time and can be operated by a single person, saving labor costs.
Flexibility and adaptability
The curved arm Aerial Work Vehicle can bypass obstacles and operate in complex terrains such as uncured ground and sandy areas, and supports working while moving. The platform can rotate 360 ° to achieve all-round coverage, suitable for narrow spaces or scenes with many obstacles.
Structural optimization and load capacity
High strength materials and compact structural design enhance stability while increasing rated load capacity (such as some vehicle models being able to carry multiple people and equipment). Some models integrate 3D rotating lifting function, which can automatically adjust the material posture to meet special installation requirements (such as large cavern ventilation ducts).
Widely applicable in the industry
Covering multiple fields such as construction, power, municipal, transportation, advertising, etc., supporting customized needs (such as high load in the power industry, street lamp maintenance, etc.).
Summary: Aerial Work Vehicles have become the core equipment for modern high-altitude operations by integrating safety protection, efficient operation, and flexible design. They are particularly suitable for scenarios that require rapid response and complex environmental operations, such as articulated boom high-altitude work vehicles and tracked lift trucks.
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