Is it Possible Vibration Machines Might Aid in the Recovery after an Injury?

 

Everyone sustains an injury at some point, whether they are training or not. So, can these ailments, regardless of how they occurred, be helped by using vibration exercise machines?

Sports physiotherapists and other rehabilitation specialists in the field of sports medicine were naturally curious to learn if vibration training may aid in their line of work and speed the healing process for athletes who had suffered injuries.

To learn more, they opted to run some controlled bearing vibration experiments.

 

Controlled research was done to determine the effects, if any, of vibration training on such ligament injuries, and many athletes who had been suffering from minor knee ligament ruptures were asked to take part.

 

As part of the study, participants were routinely asked to test and record their ability to move the affected body parts. To put it more plainly, the knee's range of motion and its capacity to move in various directions were measured and recorded

To begin, we had the athletes do a simple balancing test. They did this by standing barefoot on one leg at a time, with each leg's muscle activity measured separately

After completing the condition monitoring test, the torn ligaments exhibited remarkable recovery, especially in the posterior-anterior direction of movement.

 

Experts in the field of sports medicine were, of course, delighted by the results of the tests showing that vibration training can aid in the rehabilitation of a wide range of sports-related ailments.

 

If you're interested in learning more, a quick online search at www.stiweb.com will turn up a plethora of studies supporting the rehabilitative efficacy of vibration training as well as many others.

 

 

Why You Need Vibration Testing Services

Vibration testing is aimed at knowing the effects and consequences of vibration on its parts inside the principal frequency ranges and magnitudes that may be experienced while in field service or transportation. This test can also be used to discover the weak points in a product design. Vibration testing is useful in many applications ranging from household equipment and appliances, vehicles, and circuit boards to aircraft.

 

Most vibrations that come up in field service or transportation aren't of a simple harmonic nature. However, the tests based on this type of vibration have been satisfactory in pointing out important frequencies, vibration modes, and other information needed for setting up protective methods against the effects and consequences of unwanted vibration. To simulate real-world situations, Hansford sensor tests can also be combined with some environmental tests.

 

Carrying out a vibration simulator either in the testing field or in the laboratory makes use of climatic chambers, data analyzers, vibration exciters, controllers, and other instruments. But before setting up for a vibration test, you should have a thorough understanding of the surroundings in which the device will have to endure. It is always important to know the type of vibration applied to it.

 

Measurement of Vibration - Accurate Vibration Monitoring!

Vibration can be defined as the mechanical oscillation of a unit or device in its equilibrium state. It can be regular, like a pendulum swinging back and forth, or irregular, like a tire rolling across a gravel road. Metric units of vibration are meters per second squared (m/s2), while gravitational constant units are meters per second squared (1 g = 9.81 m/s2). 

 

Two types of vibration can occur in an object: 

-Free vibration

-Forced vibration

 

When anything is shifted or hit, and then left to oscillate, this is called free vibration.

 

When a component vibrates due to an external force is acting on it known as forced vibration. Rotation or alternation can cause vibrations at abnormal frequencies.

 

How is vibration measured?

Typically, a ceramic piezoelectric sensor or accelerometer is used to measure vibration. 

Accelerometers measure dynamic acceleration as voltage. Accelerometers are full-contact transducers often installed on high-frequency devices like bearings, gearboxes, or spinning blades. These adaptable sensors can monitor explosions and failures and low-frequency vibration. An accelerometer's advantages include linearity over a broad frequency range and a larger dynamic range.

 

The proximity probe is an alternative sensor for measuring vibration. Proximity probes are non-contacting transducers that detect a target's distance, unlike accelerometers. These sensors assess shaft vibration in spinning machines. Machine monitoring and safety measurements for turbo machinery are popular applications. Elastic fluid film bearings and substantial housing prevent vibrations from reaching the outer sheath; therefore, proximity probes are used instead of accelerometers to assess shaft motion.

 

STI Vibration Monitoring Inc. focuses on low-cost solutions to large "rack-based" equipment by offering single-channel transmitters and monitors for vibration through vibration chart, position, and temperature, allowing typical balance-of-plant equipment economical and dependable monitoring alternatives. Contact STI Vibration Monitoring for more information!