Dual mast system for simulation testing

Measuring and testing – Simulated environment

Reexamination Certificate

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Reexamination Certificate

active

06761077

ABSTRACT:

TECHNICAL FIELD
This invention relates to the art of simulation testing. In particular, the invention relates to a rig for simulation testing a full exhaust system for an automobile.
BACKGROUND
Durability testing of automotive parts is commonly used to determine the lifetime of the parts. Such testing has been conducted by placing the part to be tested on a “durability automobile” and running that automobile over a test track under prescribed test conditions for a prescribed period of time. That type of testing, however, requires a significant amount of time due to delays in assembling and scheduling the durability automobile and delays caused by downtime attributed to other parts being tested on the same vehicle.
Simulation testing was developed to reduce the time required for durability testing and thus to reduce the overall time required for new product development, reducing some new product cycles from as much as nine months to as little as one month. Simulation testing involves placing a part to be tested on a “rig,” which is designed to replicate the motion of a durability vehicle to subject the part under test to that motion without the problems incident to actual operation of the durability vehicle. This is often accomplished by placing sensors at critical places on the durability vehicle and recording the relative motions at those locations. Then, the test rig is designed to replicate those motions as exactly as possible.
A problem with simulation testing is that of correlation. That is, the results obtained by simulation testing must correlate very well with those obtained by durability vehicle testing for the simulation test to replace the durability vehicle test. Design of a test rig to obtain that correlation has not always been successful.
A prior art rig is that known as a MAST (multi-axis simulation table). A known MAST provides motions about six degrees of freedom, namely the three Cartesian directions and roll, pitch and yaw about respective ones of those axes. The motions are provided in prescribed amounts, such as 3.5-7 G's in the translation directions and 0-50 Hz frequency response on all axes. Generally the system is controlled by a computer, and twelve or more input channels from sensors on the equipment being tested are provided.
The prior MAST rig suffers from the limitation that it is generally a rigid table (e.g., 60 inches by 84 inches) that subjects the entire part being tested to the same motions. In the field of automotive testing, however, applicant has discovered that such a rig can not adequately replicate the motion of an extended part, such as an exhaust system, on a vehicle. Thus, the typical MAST rig does not provide adequate correlation.
Applicant has found that one reason for the lack of correlation provided by the known MAST rig when testing an elongate system, such as an exhaust system, is that the chassis of a vehicle flexes, resulting in motions at one part of the chassis that differs significantly from those at the other end. Moreover, the fundamental frequency of a chassis is generally much lower than for other parts of an automobile.
SUMMARY OF THE INVENTION
In accordance with the invention, applicant has discovered that significantly enhanced correlation can be obtained by mounting the part to be tested on multiple rigs, such as MAST's. In the preferred embodiment, two MAST rigs are used, with one part of the system being tested being mounted on one and the remainder of the system on the other. While the multiple systems can be connected, such as by mounting one MAST on another, applicant's preferred embodiment provides two independent MAST rigs whereby the motion of the part on one MAST is not dependent on the motion of another MAST.
For example, when the system to be tested is an exhaust system, which involves an engine with exhaust manifolds, catalytic converters, mufflers, and associated tubing, the engine and manifolds are mounted on a first MAST and the remainder of the system on a second, uncoupled MAST. This is accomplished in the preferred embodiment by providing two MAST's longitudinally arranged on a floor.
Because each of the MAST's can be programmed separately, the motions applied to the engine and the mufflers can differ and can, therefore, come much closer to replicating the actual motion of the various parts of the durability vehicle.


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MTS Systems Corporation, 1999, “New Model 324 Fatigue System Provides True Simulation for Exhaust System Testing”.
Automotive Engineering International,Feb. 1998, “Life Tests for Automotive Systems” ppg. 141-144.

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