China manufacturer Rigid Hitch Incorporated Round Stock – Trailer Axle Spindle for 1-1/16 Inch I. D Bearings broken axle

Product Description

Product description

Product name

CNC machining parts 

Color

Buyer’s requirements

Structure

stamping 

Material

Bass

Surface treatment

Powder Coated

Usage

mounting

Certification

ISO 9001, TS16949

Application

Outdoor

        HangZhou Xihu (West Lake) Dis. Hishen Hardware Co.,Ltd. stands on the beautiful and rich CZPT Port —-HangZhou city, ZHangZhoug province, nearby Xihu (West Lake) Dis. port, train station and high speed way provide a prerequisite for convenient transportation!

         The company established in 2006 , specialize in all kinds of sheet metal fabrication , cnc machining parts , welding parts , stamping parts , tube bending parts and so on . Possess good sustainable development

         infrastructure and strain capacity for quick response to market demand . We carry out ISO9001 Quality Control System in our management .

Quality Control

Packaging & Shipping

Our Team

Our Service

1. OEM/ODM Services, We have engineers to design as buyer’s requirements.
2. Specialized in manufacture metal products, the factory equipped with Cutting machines, punch machines with 10T-60T, plate cutting machines, pipe bending machines, roll bending machine, drilling machine, milling machine, lathe, grander machine, Co2 and argon-arc welding machines, etc.
3. 450m long all automatized metal surface processing plant, all automatized oil wash, rust removing, powder coating, curving, water wash, drying, and other procedures.

FAQ
Q: Are you trading company or manufacturer ?

A: We are factory with ISO  and TS certificate .

Q: How long is your delivery time ?

A: Normaly 30days but it dpends on  . For laser cutting  parts , we can supply it within  10days ,for sheet metal fabrication we can catch  up within 25days . We will always try  our best to  meet customer’s requirment if there is urgency .

Q: Do you provide samples ? Is it free ?

A: Yes , we can offer samples for free if there is no jigs or toolings needed in the production .

Q: What is your payment terms ?

A: Usually we do at 30% TT  as deposit  with  full tooling cost if there is , and the balanace to be paid before shipment after approval of quality . But we  also can offer better terms after we start cooperation  while we have  more know about each other .

/* January 22, 2571 19:08:37 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1

Standard: ISO9001
Tolerance: +/-0.10mm
Surface Treatment: Powder Coated
Machining Method: Stamping
Material: Stainless Steel
Transport Package: According to Buyer′s Requirements
Samples:
US$ 0.5/Piece
1 Piece(Min.Order)

|
Request Sample

Customization:
Available

|

Customized Request

axle spindle

How do I properly inspect an axle spindle for signs of wear or damage?

Inspecting an axle spindle for signs of wear or damage is an important part of vehicle maintenance. Here is a detailed explanation of how to properly inspect an axle spindle:

Before starting the inspection, ensure the vehicle is safely supported on jack stands and the wheels are removed to provide clear access to the axle spindles. Here are the steps to follow:

  1. Visual Inspection: Begin by visually examining the axle spindle for any visible signs of wear, damage, or irregularities. Look for the following indications:
    • Cracks or fractures on the spindle surface
    • Bent or warped spindle
    • Signs of excessive corrosion or rust
    • Visible wear patterns or grooves
    • Unusual discoloration or heat marks
  2. Tactile Inspection: Run your fingers along the surface of the spindle to feel for any roughness, pitting, or other abnormalities. Pay attention to any areas that feel excessively rough or have noticeable imperfections.
  3. Bearing Play: Check for excessive play or looseness in the wheel bearing by grasping the wheel at the top and bottom and attempting to move it back and forth. If there is noticeable play, it may indicate worn or damaged wheel bearings, which can affect the spindle’s performance.
  4. Runout Measurement: Using a dial indicator, measure the spindle’s runout. This involves checking for any deviation or wobbling of the spindle when it rotates. Attach the dial indicator to a fixed point on the suspension or brake assembly and position the indicator’s contact point against the spinning spindle. Slowly rotate the spindle and observe the dial indicator’s reading. Excessive runout can indicate a bent or warped spindle.
  5. Brake Component Alignment: Check the alignment of the brake components, including the brake rotor and caliper, in relation to the spindle. Ensure that the rotor sits flush against the spindle surface and that the caliper is properly aligned with the rotor. Misalignment can indicate a bent or damaged spindle.
  6. Seal and Bearing Inspection: If possible, remove the wheel bearing and seal to inspect them for any signs of damage, wear, or leakage. Look for pitting, excessive wear, or damaged seals. Replace the bearings and seals if necessary.

It’s important to note that axle spindle inspection may require specialized tools, such as a dial indicator or bearing puller. If you’re uncomfortable performing the inspection yourself or lack the necessary tools, it’s recommended to have a qualified mechanic or technician inspect the spindle for you.

Regular axle spindle inspections can help identify potential issues early on, allowing for timely repairs or replacements. If you notice any signs of wear, damage, or irregularities during the inspection, it’s advisable to consult a professional for further evaluation and necessary repairs.

In summary, properly inspecting an axle spindle involves a visual and tactile examination for signs of wear or damage, checking for bearing play, measuring runout, assessing brake component alignment, and inspecting the wheel bearings and seals. Follow the recommended steps and consider seeking professional assistance if needed.

axle spindle

Can changes in the vehicle’s ride height impact the angles and performance of axle spindles?

Yes, changes in the vehicle’s ride height can indeed impact the angles and performance of axle spindles. Here is a detailed explanation:

The ride height of a vehicle refers to the distance between the ground and the chassis or body of the vehicle. It is determined by several factors, including the suspension system, springs, shocks, and overall design. Altering the ride height, either by raising or lowering the vehicle, can have various effects on the angles and performance of the axle spindles.

Here are some ways in which changes in ride height can impact the axle spindles:

  • Steering Geometry: The angles and geometry of the steering system are closely linked to the ride height of the vehicle. When the ride height is modified, it can affect the steering angles, such as the caster, camber, and toe. These angles determine how the wheels interact with the road surface and influence the handling, stability, and tire wear. Any alteration to the steering geometry can indirectly impact the axle spindles and their performance.
  • Axle Alignment: Changes in ride height can also affect the alignment of the axles. Raising or lowering the vehicle can lead to changes in the relative position and alignment of the front and rear axles. This can introduce changes in the suspension geometry, including the axle angles, which in turn can affect the load distribution, tire contact patch, and overall performance of the axle spindles.
  • Components Interference: In some cases, significant changes in ride height can lead to interference issues between suspension components and other parts of the vehicle. For example, lowering the vehicle excessively can cause the axle spindles or other suspension elements to come into contact with the body, frame, or other nearby components. This can result in limited suspension travel, reduced performance, or potential damage to the axle spindles.
  • Suspension Travel and Dynamics: Altering the ride height can affect the suspension travel and dynamics of the vehicle. Lowering the ride height typically reduces the suspension’s range of motion, which can impact the ability of the axle spindles to absorb bumps, maintain tire contact with the road, and provide adequate suspension travel. Conversely, raising the ride height can increase the suspension travel but may also affect the vehicle’s center of gravity and stability.
  • Ground Clearance: Changes in ride height can impact the vehicle’s ground clearance, which is the distance between the lowest point of the vehicle and the ground. Lowering the ride height reduces ground clearance, potentially increasing the risk of the axle spindles or other undercarriage components scraping or hitting obstacles on the road. This can lead to damage or premature wear of the axle spindles if they come into contact with road hazards.

It’s worth noting that modifying the ride height of a vehicle, particularly beyond the manufacturer’s specifications, can have implications on various aspects of vehicle performance, including the axle spindles. Therefore, it’s important to consider these factors and exercise caution when making ride height adjustments.

If you are considering changing the ride height of your vehicle, it is recommended to consult with knowledgeable professionals or experienced enthusiasts who are familiar with the specific vehicle model and its suspension system. They can provide guidance on appropriate modifications, potential impacts on the axle spindles, and the overall performance and safety of the vehicle.

In summary, changes in a vehicle’s ride height can impact the angles and performance of axle spindles. These changes can affect steering geometry, axle alignment, component interference, suspension travel and dynamics, as well as ground clearance. It’s important to consider these factors and seek expert advice when modifying the ride height to ensure optimal performance and safety of the axle spindles and the vehicle as a whole.

axle spindle

What is the primary role of the axle spindle in a vehicle’s suspension system?

The primary role of the axle spindle in a vehicle’s suspension system is to support and facilitate the rotation of the wheel assembly. Here’s a detailed explanation:

The axle spindle, also known as the wheel spindle or stub axle, is a component of the suspension system that connects the wheel hub assembly to the suspension system. It plays a crucial role in supporting the weight of the vehicle, transmitting driving forces, and allowing the wheel assembly to rotate smoothly.

Here are the primary functions and roles of the axle spindle:

  • Wheel Mounting: The axle spindle provides a mounting point for the wheel hub assembly. It typically extends from the steering knuckle or axle beam and incorporates a flange or hub surface where the wheel is mounted. The spindle ensures proper alignment and secure attachment of the wheel to the suspension system.
  • Load Support: One of the main responsibilities of the axle spindle is to support the weight of the vehicle and any additional loads. It transfers the vertical load from the wheel assembly to the suspension system and ultimately to the vehicle chassis. The spindle should be designed to withstand the weight and forces encountered during normal driving conditions.
  • Wheel Rotation: The axle spindle allows the wheel assembly to rotate freely. It acts as an axle or pivot point around which the wheel rotates when the vehicle is in motion. The spindle is typically designed with a smooth, cylindrical shape that fits into the wheel bearings, allowing for low-friction rotation.
  • Steering Function: In some suspension systems, particularly those with steering knuckles, the axle spindle also plays a role in the steering function. It connects to the steering linkage or tie rods, allowing for the controlled movement of the wheel assembly during steering maneuvers. The spindle’s design and attachment points should facilitate the proper functioning of the steering system.
  • Transmission of Forces: The axle spindle transmits driving and braking forces from the wheel assembly to the suspension system. These forces include torque from the engine during acceleration and braking forces when the brakes are applied. The spindle should be able to handle these forces without failure or excessive deflection.

It’s important to note that the design and construction of axle spindles can vary depending on the specific suspension system used in a vehicle. Different suspension types, such as independent suspension or solid axle suspension, may have variations in spindle design and attachment methods. Additionally, the axle spindle must be properly lubricated and maintained to ensure smooth operation and longevity.

In summary, the primary role of the axle spindle in a vehicle’s suspension system is to support and facilitate the rotation of the wheel assembly. It provides a mounting point for the wheel hub assembly, supports the vehicle’s weight, allows for wheel rotation, contributes to the steering function, and transmits driving forces. The design and construction of the axle spindle may vary depending on the suspension system used in the vehicle.

China manufacturer Rigid Hitch Incorporated Round Stock - Trailer Axle Spindle for 1-1/16 Inch I. D Bearings   broken axleChina manufacturer Rigid Hitch Incorporated Round Stock - Trailer Axle Spindle for 1-1/16 Inch I. D Bearings   broken axle
editor by CX 2024-05-08

Recent Posts