Product Description
Product Description
1. Optional chassis brand of portable water truck: Xihu (West Lake) Dis.feng, HOWO,I-suzu,CAMC, Sinotruk, FOTON/Forland, Faw, Shacaman, etc.
2. Material of portable water truck :High Tension Steel Q235/Q345,stainless steel 304 for option.
3. Sprinking Width of portable water truck: ≥14M
4. Rear working platform with water cannon range of portable water truck: ≥28M
5. Reliable and high quality water pump
Applications:
1. Firefighting
Water trucks are especially useful in remote, rural areas where there are no fire hydrants to help put out fires. These trucks transport water needed by firefighters to not only control fires but dampening fire-prone areas that are likely to be consumed in the blaze.
2. Soil Compaction
Soil must be compacted to create a flat, even ground at construction sites so that buildings, roads, bridges etc. can be built safely. When soil is compacted with heavyweight compacting tools like rollers, rammers and vibratory plates, the air component is removed from the soil while keeping the water content intact.
3. Too much water will make the ground sludgy and unstable. Too little water will not let the dry soil particles adhere to each other either. Water trucks not only provide a portable and ready water source at construction sites, they also provide just the right amount of liquid to maintain good water to soil ratio to create strong and stable compaction.
4. Farming
The agricultural sector in the United States started using water trucks during the severe drought that was experienced throughout the Midwest and West Coast of the country between 2011-2016.
When rains fail, these trucks carry recycled water to affected farmlands so irrigation can continue, and both crops and CHINAMFG can be saved.
Specification
| Chassis Specification | ||||
| Item No. | Parameters | |||
| Chassis Brand | SINOTRUK | Overall Dimension | 9800×2500×3250mm | |
| Gross Vehicle Weight | 28950 kg | Curb Weight | 8950 kg | |
| Loading Weight | 20000 Kg | Wheel Base | 1950+3800 + 1400 mm | |
| Cabin | Row and half, Right Hand Driving | |||
| Engine | 371HP | |||
| Overhang( Front/Rear) | 1140/1810(mm) | |||
| Fuel type | Diesel | |||
| Axle load | 7000/16000/16000 (kg) | |||
| Angle(Approach/departure) | 16/22(°) | |||
| Transmission/Gearbox | 10 CHINAMFG & 2 Reverse Gear | |||
| Brake System | Pneumatic | |||
| Steering Gear | Power Assistant | |||
| Tire | 12.00R20, 10 Pieces with 1 spare tire | |||
| Maximum speed | 90(km/h) | |||
| Superstructure | ||||
| Water Tanker | Tank Volume | 20000 Liters / 20m3 | ||
| Tank Material | 5mm Q235B Carbon Steel | |||
| Sprinkling System: |
Suction height of Truck Pump | >7m | ||
| Full Tank Suction Time | <15 minutes | |||
| Sprinkling width of front/rear/side Sprinkler | ≥14m | |||
| Range of Water Cannon | ≥28m | |||
| Remarks | Other Parts: Self-flow valve 1pc; Fire joint 1pc; Water pipe 2pcs | |||
Successful Case
Overseas Exhibition and After-sales Service
| After-sales Service: | with After Sales Service |
|---|---|
| Warranty: | 1 Year |
| Volume: | 15001 – 30000L |
| Certification: | ISO9000, CCC, CE |
| Emission Standard: | Euro 1/Euro 2/Euro 3/Euro 4/Euro 5/Optional |
| Sprinkling Area: | 12 – 16m |
| Customization: |
Available
| Customized Request |
|---|
Proper Installation and Alignment of Miter Gearboxes
Installing and aligning a miter gearbox correctly is essential to ensure its optimal performance and longevity. Follow these steps to achieve proper installation and alignment:
- Preparation: Gather all necessary tools and equipment for the installation, including mounting hardware, shims, and alignment tools.
- Mounting Surface: Ensure that the mounting surface is clean, flat, and free from any debris or contaminants that could affect the gearbox’s alignment and operation.
- Alignment Tools: Use precision alignment tools, such as dial indicators or laser alignment systems, to accurately measure and adjust the alignment of the gearbox and its input and output shafts.
- Check for Parallelism: Align the input and output shafts of the gearbox to be parallel to each other and perpendicular to the mounting surface. This step is crucial to prevent misalignment-induced wear and reduce backlash.
- Adjustment: Use shims or other adjustable components to fine-tune the alignment. Make incremental adjustments while continuously checking the alignment with the chosen alignment tools.
- Bearing Loads: Ensure that the bearings supporting the gearbox shafts are properly lubricated and preloaded according to the manufacturer’s recommendations. Proper bearing preload helps maintain alignment and reduces wear.
- Tightening Bolts: Tighten the mounting bolts gradually and evenly to avoid introducing additional misalignment during the installation process.
- Runout and Clearance: Check for any runout or clearance issues during rotation by turning the input shaft. If there is any binding, interference, or abnormal noise, investigate and address the cause before finalizing the installation.
- Final Checks: Double-check the alignment using the alignment tools and ensure that the gearbox operates smoothly without any unusual vibrations, noises, or resistance.
- Documentation: Keep a record of the alignment measurements and adjustments made during the installation process. This documentation can be valuable for future reference and maintenance.
Proper installation and alignment of miter gearboxes help optimize their performance, minimize wear and tear, and contribute to the overall efficiency and reliability of the mechanical system in which they are used.
Miter Gearboxes in Robotics and Automation Applications
Miter gearboxes are indeed utilized in robotics and automation applications, leveraging their unique capabilities for precise motion control and direction change:
Precision Motion: In robotics, miter gearboxes can be employed to achieve precise and accurate motion at right angles, allowing robots to perform intricate tasks with accuracy.
Joint and Arm Movements: Robotic arms often require precise movement and control at various angles. Miter gearboxes enable smooth and controlled motion changes, contributing to the versatility of robotic arms.
Direction Change: Many automation systems involve the need to change the direction of motion, such as conveyors or assembly lines. Miter gearboxes efficiently handle these changes, ensuring seamless operation.
Space Optimization: Robots and automated systems often operate in confined spaces. Miter gearboxes’ compact design makes them suitable for integrating into space-constrained environments.
Responsive Control: Automation applications demand responsiveness and accurate control. Miter gearboxes provide the necessary motion control for timely and precise execution of tasks.
Noise Reduction: In robotics and automation, quiet operation is essential. Miter gearboxes, with reduced backlash and noise, contribute to a quieter working environment.
Miter gearboxes play a crucial role in enhancing the efficiency, accuracy, and versatility of robotics and automation systems by facilitating controlled motion changes and direction shifts.
Handling High-Speed and Heavy-Load Applications in Miter Gearboxes
Miter gearboxes are versatile mechanical components that can handle a wide range of applications, including both high-speed and heavy-load scenarios. The suitability of a miter gearbox for a specific application depends on various factors, including design, material, lubrication, and overall engineering considerations.
When it comes to high-speed applications, miter gearboxes can be designed and manufactured to handle rotational speeds that are typical in various industries. Properly designed miter gearboxes will consider factors such as gear tooth profile, lubrication, and material selection to minimize friction, heat generation, and wear, allowing for efficient and reliable operation at high speeds.
Similarly, miter gearboxes can also be engineered to handle heavy-load applications. By using durable materials, precision machining, and robust bearing arrangements, miter gearboxes can efficiently transmit high levels of torque while maintaining structural integrity. The bevel gear arrangement in miter gearboxes is well-suited for distributing heavy loads evenly across the gear teeth, ensuring smooth and consistent power transmission.
It’s important to note that the specific design and capabilities of a miter gearbox will vary depending on the manufacturer and the intended application. Engineers and designers work to optimize gear ratios, bearing arrangements, and housing materials to ensure that the miter gearbox can handle the demands of the given application, whether it involves high speeds, heavy loads, or a combination of both.
Ultimately, miter gearboxes can provide reliable performance across a wide spectrum of operating conditions, making them a versatile choice for various industries and applications.
editor by CX 2023-11-27