Product Description
Introduction of enterprise:
HangZhou Jinlibo Trade Co., Ltd. Has introduced sophisticated equipment from overseas to develop and manufacture semi-trailer axles and related parts. Holding ISO9001: 2000 certification for our management system, we faithfully follow the stipulations of this standard so as to guarantee high product quality.
Characteristics:
1. Special heat-treat, low-alloy steel axle beam, it has the vitues of good synthetic performance, strong load ability and lower self weight.
2. High quality alloy solid inserted spindle, through wholy heat treatment, provide superior fatigue capability.
3. High performance premium non-asbestos brake linings, estend serbice life.
4. Easy for ABS installation.
5. Camshaft, matching with special seals, can ensure no entry of the grease into the brake drum, more safety.
6. New tight fit hub cap habe O rings, high property for sealing.
7. Grease lubricant is supplied by Mobil that lengthens the time of free maintenance.
8. Full range of stud fixing such as ISO, BSF and JAP, it can meet the requirements of various wheel rims.
Scope of our business
1. Axles (German type axle, EngliSh type axle, American type axle, Spoke axle, ZM axle, Agriculture axle, Half axle, Axle without brake)
2. Suspension (Bogie suspension, One point suspension, Rigid suspension, Spoke suspension, Machinery suspension)
3. Landing gear
4. Fifth wheel (2” 3.5”)
5. King pin (2” 3.5”)
6. Semi trailer
7. Other axles and related parts (Low bed axle, hub, rims, spring, drum…)
| AXLE TYPE | BRAKE SIZE | WHEEL FIXING | NO.xSIZE OF WHEEL STUD | WHEE.REG.DIA(DIM B) | DIM.D | BEARING | MIN WHEEL | BEAM SIZE | AXLE CAPCITY | SPRING SET INSTALLATIONS | WEIGHT |
| RNY1218J | 420×180 | JAP | 8xM20x285 | 221 | 718 | 33213 218248 | 20″ | ?150 | 13T | ≤450 | 350KG |
| RNY1222J | 420×220 | JAP | 8xM20x285 | 221 | 738 | 33213 218248 | 20″ | ?150 | 13T | ≤450 | 370KG |
| RNY1218I | 420×180 | ISO | 10xM22x335 | 281 | 710 | 33213 218248 | 20″ | ?150 | 13T | ≤450 | 350KG |
| RNY1222I | 420×220 | ISO | 10xM22x335 | 281 | 730 | 33213 218248 | 20″ | ?150 | 13T | ≤450 | 380KG |
| RNY118B | 420×180 | BSF | 10×7/8″x335 | 281 | 701 | 33213 218248 | 20″ | ?150 | 13T | ≤450 | 350KG |
| RNY1220I | 420×200 | ISO | 10xM22x335 | 281 | 715 | 33213 218248 | 20″ | ?150 | 13T | ≤450 | 370KG |
| RNY1622B | 420×220 | BSF | 10×7/8″x335 | 281 | 721 | 218248 220149 | 20″ | ?150 | 16T | ≤450 | 420KG |
| RNY1622I | 420×220 | ISO | 10xM22x335 | 281 | 721 | 218248 220149 | 20″ | ?150 | 16T | ≤450 | 420KG |
| RNY1822I | 420×220 | ISO | 10xM22x335 | 281 | 721 | 218248 220149 | 20″ | ?150 | 18T | ≤450 | 450KG |
| RNY12018I | 420×180 | ISO | 10xM22x335 | 281 | 710 | 33213 218248 | 20″ | ø127×18 | 12T | ≤450 | 350KG |
| RNY12018J | 420×180 | JAP | 8xM20x285 | 221 | 718 | 33213 218248 | 20″ | ø127×18 | 12T | ≤450 | 340KG |
| RNY12018B | 420×180 | BSF | 10×7/8″x335 | 281 | 701 | 33213 218248 | 20″ | ø127×18 | 12T | ≤450 | 350KG |
| RNY12571I | 420×220 | ISO | 10xM22x335 | 281 | 730 | 33213 218248 | 20″ | ø127×18 | 13T | ≤450 | 370KG |
| RNY16571I | 420×220 | ISO | 10xM22x335 | 281 | 721 | 218248 220149 | 20″ | ø127×18 | 16T | ≤450 | 430KG |
| RNY17571I | 420×220 | ISO | 10xM22x335 | 281 | 721 | 218248 220149 | 20″ | ø127×18 | 17.5T | ≤450 | 430KG |
| RNY1188I | 311×178 | ISO | 10xM22x335 | 176 | 690 | 33213 218248 | 15″ | ø127×18 | 10T | ≤390 | 260KG |
| RNY1518I | 311×178 | ISO | 10xM22x335 | 176 | 690 | 33213 218248 | 15″ | ø127×18 | 15T | ≤390 | 300KG |
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| Material: | 14oz T/C Canvas |
|---|---|
| Certification: | SGS, ISO/Ts16949, ISO |
| Position: | Rear |
| OEM: | No |
| Type: | Semi-Trailer |
| Condition: | New |
| Customization: |
Available
| Customized Request |
|---|
Can you provide insights into the maintenance of axle bearings for smooth operation?
Maintaining axle bearings is essential for ensuring smooth operation, longevity, and optimal performance of a vehicle’s axle system. Here are some insights into the maintenance of axle bearings:
1. Regular Inspection:
Perform regular visual inspections of the axle bearings to check for any signs of wear, damage, or leaks. Look for indications such as excessive play, unusual noises, vibration, or leakage of grease. Inspections should be carried out as per the manufacturer’s recommended intervals or during routine maintenance checks.
2. Lubrication:
Adequate lubrication is crucial for the smooth operation of axle bearings. Follow the manufacturer’s guidelines for the type of lubricant to use and the recommended intervals for greasing. Over-greasing or under-greasing can lead to bearing damage or failure. Ensure that the proper amount of grease is applied to the bearings, and use a high-quality grease that is compatible with the axle bearing specifications.
3. Seal Inspection and Replacement:
Check the condition of the axle bearing seals regularly. The seals help to keep contaminants out and retain the lubricating grease within the bearing. If the seals are damaged, worn, or show signs of leakage, they should be replaced promptly to prevent dirt, water, or debris from entering the bearing assembly and causing damage.
4. Proper Installation:
During axle bearing replacement or installation, it is crucial to follow proper procedures to ensure correct seating and alignment. Improper installation can lead to premature bearing failure and other issues. Refer to the manufacturer’s instructions or consult a professional mechanic to ensure proper installation techniques are followed.
5. Load Capacity and Alignment:
Ensure that the axle bearings are properly sized and rated to handle the load capacity of the vehicle and the specific application. Overloading the bearings can lead to excessive wear and premature failure. Additionally, proper wheel alignment is important to prevent uneven bearing wear. Regularly check and adjust the wheel alignment if necessary.
6. Environmental Considerations:
Take into account the operating conditions and environment in which the vehicle is used. Extreme temperatures, exposure to water, dirt, or corrosive substances can affect the performance of axle bearings. In such cases, additional preventive measures may be necessary, such as more frequent inspections, cleaning, and lubrication.
7. Professional Maintenance:
If you are unsure about performing maintenance on axle bearings yourself or if you encounter complex issues, it is recommended to seek assistance from a qualified mechanic or technician who has experience with axle systems. They can provide expert advice, perform necessary repairs or replacements, and ensure proper maintenance of the axle bearings.
By following these maintenance insights, you can help ensure the smooth operation, longevity, and reliability of axle bearings, contributing to the overall performance and safety of the vehicle.
How do axle ratios impact the performance and fuel efficiency of a vehicle?
The axle ratio of a vehicle plays a crucial role in determining its performance characteristics and fuel efficiency. Here’s a detailed explanation of how axle ratios impact these aspects:
Performance:
The axle ratio refers to the ratio of the number of rotations the driveshaft makes to the number of rotations the axle makes. A lower axle ratio, such as 3.23:1, means the driveshaft rotates 3.23 times for every rotation of the axle, while a higher ratio, like 4.10:1, indicates more driveshaft rotations per axle rotation.
A lower axle ratio, also known as a numerically higher ratio, provides better low-end torque and acceleration. This is because the engine’s power is multiplied as it goes through the gears, resulting in quicker acceleration from a standstill or at lower speeds. Vehicles with lower axle ratios are commonly found in trucks and performance-oriented vehicles where quick acceleration and towing capacity are desired.
On the other hand, a higher axle ratio, or numerically lower ratio, sacrifices some of the low-end torque for higher top-end speed and fuel efficiency. Vehicles with higher axle ratios are typically used in highway driving scenarios where maintaining higher speeds and maximizing fuel efficiency are prioritized.
Fuel Efficiency:
The axle ratio directly affects the engine’s RPM (revolutions per minute) at a given vehicle speed. A lower axle ratio keeps the engine running at higher RPMs, which may result in increased fuel consumption. However, this ratio can provide better towing capabilities and improved off-the-line acceleration.
In contrast, a higher axle ratio allows the engine to operate at lower RPMs during cruising speeds. This can lead to improved fuel efficiency because the engine doesn’t have to work as hard to maintain the desired speed. It’s worth noting that other factors, such as engine efficiency, aerodynamics, and vehicle weight, also influence fuel efficiency.
Manufacturers carefully select the axle ratio based on the vehicle’s intended purpose and desired performance characteristics. Some vehicles may offer multiple axle ratio options to cater to different driving preferences and requirements.
It’s important to consider that changing the axle ratio can have implications on the overall drivetrain system. Modifying the axle ratio can affect the vehicle’s speedometer accuracy, transmission shifting points, and may require recalibration of the engine control unit (ECU) to maintain optimal performance.
As always, for precise information on a specific vehicle’s axle ratio and its impact on performance and fuel efficiency, it is best to consult the vehicle manufacturer’s specifications or consult with automotive experts.
What are the factors to consider when choosing an axle for a custom-built vehicle?
Choosing the right axle for a custom-built vehicle is crucial for ensuring optimal performance, durability, and safety. Here are several key factors to consider when selecting an axle for a custom-built vehicle:
- Vehicle Type and Intended Use:
- Axle Type:
- Weight Capacity:
- Axle Ratio:
- Braking System Compatibility:
- Suspension Compatibility:
- Aftermarket Support:
- Budget:
Consider the type of vehicle you are building and its intended use. Factors such as vehicle weight, power output, terrain (on-road or off-road), towing capacity, and payload requirements will influence the axle selection. Off-road vehicles may require axles with higher strength and durability, while performance-oriented vehicles may benefit from axles that can handle increased power and torque.
Choose the appropriate axle type based on your vehicle’s drivetrain configuration. Common axle types include solid axles (live axles) and independent axles. Solid axles are often used in heavy-duty applications and off-road vehicles due to their robustness and ability to handle high loads. Independent axles offer improved ride quality and handling characteristics but may have lower load-carrying capacities.
Determine the required weight capacity of the axle based on the vehicle’s weight and intended payload. It’s crucial to select an axle that can handle the anticipated loads without exceeding its weight rating. Consider factors such as cargo, passengers, and accessories that may contribute to the overall weight.
Choose an axle ratio that matches your vehicle’s powertrain and desired performance characteristics. The axle ratio affects the torque multiplication between the engine and wheels, influencing acceleration, towing capability, and fuel efficiency. Higher axle ratios provide more torque multiplication for improved low-end power but may sacrifice top-end speed.
Ensure that the chosen axle is compatible with your vehicle’s braking system. Consider factors such as the axle’s mounting provisions for brake calipers, rotor size compatibility, and the need for an anti-lock braking system (ABS) if required.
Consider the compatibility of the chosen axle with your vehicle’s suspension system. Factors such as axle mounting points, suspension geometry, and overall ride height should be taken into account. Ensure that the axle can be properly integrated with your chosen suspension components and that it provides sufficient ground clearance for your specific application.
Consider the availability of aftermarket support for the chosen axle. This includes access to replacement parts, upgrade options, and technical expertise. A robust aftermarket support network can be beneficial for future maintenance, repairs, and customization needs.
Set a realistic budget for the axle selection, keeping in mind that high-performance or specialized axles may come at a higher cost. Balance your requirements with your budget to find the best axle option that meets your needs without exceeding your financial limitations.
When choosing an axle for a custom-built vehicle, it’s recommended to consult with knowledgeable professionals, experienced builders, or reputable axle manufacturers. They can provide valuable guidance, assist in understanding technical specifications, and help you select the most suitable axle for your specific custom vehicle project.
editor by CX 2024-04-12
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