The present disclosure is directed toward a steering wheel alignment apparatus that includes a sensor, a sensor housing, an anchor portion, and a weighted portion. The sensor is configured to measure an angular position of the steering wheel. The sensor housing defines a cavity to hold the sensor. The anchor portion extends from the sensor housing and is configured to engage with a low portion of a steering wheel. The weighted portion extends from the anchor portion to bias the sensor housing toward the low portion.

The present disclosure is directed toward a steering wheel alignment apparatus that includes a sensor, a sensor housing, an anchor portion, and a weighted portion. The sensor is configured to measure an angular position of the steering wheel. The sensor housing defines a cavity to hold the sensor. The anchor portion extends from the sensor housing and is configured to engage with a low portion of a steering wheel. The weighted portion extends from the anchor portion to bias the sensor housing toward the low portion.

A verification hub for a motor vehicle hub runout tester includes an outer ring, an end plate and a clamping portion fixed to each other, and the clamping portion is detachably fixed to the end plate; the clamping portion includes a first positioning hole for positioning and clamping, and the cylindricity of the first positioning hole is smaller than a preset value; the outer circumference of the outer ring includes at least two turns of measuring cylindrical surfaces having preset axial lengths and buses parallel to an axis of the first positioning hole, the radial distances between the axes of the measuring cylindrical surfaces and the axis of the first positioning hole are greater than a preset value, and circular runout test values of the measuring cylindrical surfaces are preset first harmonic runout values.

A verification hub for a motor vehicle hub runout tester includes an outer ring, an end plate and a clamping portion fixed to each other, and the clamping portion is detachably fixed to the end plate; the clamping portion includes a first positioning hole for positioning and clamping, and the cylindricity of the first positioning hole is smaller than a preset value; the outer circumference of the outer ring includes at least two turns of measuring cylindrical surfaces having preset axial lengths and buses parallel to an axis of the first positioning hole, the radial distances between the axes of the measuring cylindrical surfaces and the axis of the first positioning hole are greater than a preset value, and circular runout test values of the measuring cylindrical surfaces are preset first harmonic runout values.

A simulation hub includes an end plate, a clamping portion and a measuring disc, in which the clamping portion and the measuring disc are both detachably fixed to the end plate; the clamping portion includes a first positioning hole for positioning and clamping, the first positioning hole is a cylindrical hole, and the cylindricity of the first positioning hole is smaller than a preset value; the outer circumference of the measuring disc includes at least a measuring cylindrical surface having a preset axial length and a bus parallel to an axis of the first positioning hole, and circular runout test values of the measuring cylindrical surface are preset first or second harmonic runout values; and the outer diameter of the measuring cylindrical surface is adapted to the inner diameter of the first positioning hole.

A simulation hub includes an end plate, a clamping portion and a measuring disc, in which the clamping portion and the measuring disc are both detachably fixed to the end plate; the clamping portion includes a first positioning hole for positioning and clamping, the first positioning hole is a cylindrical hole, and the cylindricity of the first positioning hole is smaller than a preset value; the outer circumference of the measuring disc includes at least a measuring cylindrical surface having a preset axial length and a bus parallel to an axis of the first positioning hole, and circular runout test values of the measuring cylindrical surface are preset first or second harmonic runout values; and the outer diameter of the measuring cylindrical surface is adapted to the inner diameter of the first positioning hole.

An apparatus and method that detect a wheel alignment condition are provided. The method includes receiving a dataset comprising one or more from among a steering wheel angle parameter, a speed parameter, a lateral acceleration parameter, a self-aligning torque parameter and a power steering torque parameter, normalizing the received dataset, analyzing the normalized dataset according to a model for determining a wheel alignment condition, and outputting a value indicating whether the wheel alignment is within a predetermined value based on the model.

A wheel clamp attaches to a vehicle wheel for performing a wheel alignment on the vehicle. The wheel clamp has a mechanism to mount on the studs of the wheel and to securely mount on the flat surface of the rim. The wheel clamp may have a retractable mechanism that while mounted on the wheel's stud, can slide along the length of the stud without the need to turn it using the threads of the stud. Different methods may be used to attach to the stud, such as by means of treading a device, using a contraction mechanism or magnetic attraction. The wheel clamp has a crossbar and mechanism for supporting a measuring sensor, head or target and can be accommodated to different sizes, shapes and patterns of wheels and studs in the automotive industry.

A wheel clamp attaches to a vehicle wheel for performing a wheel alignment on the vehicle. The wheel clamp has a mechanism to mount on the studs of the wheel and to securely mount on the flat surface of the rim. The wheel clamp may have a retractable mechanism that while mounted on the wheel's stud, can slide along the length of the stud without the need to turn it using the threads of the stud. Different methods may be used to attach to the stud, such as by means of treading a device, using a contraction mechanism or magnetic attraction. The wheel clamp has a crossbar and mechanism for supporting a measuring sensor, head or target and can be accommodated to different sizes, shapes and patterns of wheels and studs in the automotive industry.

An apparatus for automatically evaluating chassis or wheel alignment measurement data comprises: a memory device configured to store a number of chassis data records, with each chassis data record containing at least one chassis parameter and a tolerance range allocated to each chassis parameter; a provisioning device configured to provide a data record of current chassis parameters, which comprises at least one current chassis parameter; a selection device configured to select, on the basis of the data record provided by the provisioning device, a subset of chassis data records from the chassis data records stored in the memory device; and a determination device configured to determine the proportion of the chassis data records from the subset of chassis data records for which the current chassis parameter's of the data record provided by the provisioning device are within the specified tolerance ranges.