A digital force gauge is used to measure both pull and push forces. It can measure tensile and compressive forces using different attachments. When measuring those, the digital force gauge displays the reading on its digital screen. A digital force gauge is useful in many industries such as manufacturing, research, and quality control.
Digital force gauges are used to measure objects' pulling and pushing forces like opening a can, pushing a button, pressing a vehicle's brake pedal, and so on. The device comes with different attachments for measuring tensile and compressive forces.
The force it takes to pull or push something to a certain outcome is critical in many fields, including manufacturing, quality assurance, research, and safety testing.
Difference Between Mechanical And Digital Force Gauge
A mechanical Force Gauge shows readings on a physical scale with a needle.
Digital gauges use sensors to measure the force applied to an object. These gauges are typically more expensive than mechanical gauges, but they can be more accurate. Since there is no human error in reading a digital gauge, they are often chosen for applications requiring precise measurements.
How Does Digital Force Gauge Work?
Each model of digital force gauge has different specifications, so you need to check out the product manual. But in general, the working principle is similar.
Digital force gauges use sensors to measure the force applied to an object. These sensors convert the physical quantity (force) into an electrical signal, which is then displayed on the digital screen of the gauge.
A digital force gauge is useful in many industries such as manufacturing, research, and quality control. In an industrial or professional setting, they may be certain standards you must adhere to, such as verifying accuracy and calibration.
Make sure it is fully charged or has batteries before each use. To avoid damaging the digital force gauge, do not apply more force than its maximum capacity.
Then choose the right attachment for your application and fix it to the digital force gauge. The most common attachments are for measuring tension and compression forces. Hooks are used to measure the pulling force, while probes are used to measure the pushing force. You can also use extensions to measure the force at a certain distance from the digital force gauge.
Let's look at common settings on the Measuring Instrument before using it.
How To Calibrate a Digital Force Gauge?
Calibration is the process of verifying or adjusting the precision of a digital force gauge. There are various ways to calibrate, depending on the model you have. Some digital force gauges perform self-calibration through software. Look in your user manual for specific instructions on how to do this with your digital force gauge.
How Can I Pick the Right Digital Force Gauge?
It depends on the application for which you will be using the gauge. If you're measuring high forces, you'll need a gauge with a higher capacity. The maximum load that a digital force gauge can measure is 500 Newtons (50 kg).
If you are measuring smaller forces, you may want a lower capacity and higher resolution gauge. The resolution is the smallest unit of measurement that the digital force gauge can detect accurately. Max loads of high-precision force gauges can be as low as 2N. Additionally, consider whether you want a handheld digital force gauge or one that comes with a testing stand.
A handheld gage is user-friendly, and it's the best option for most people. However, if you'll be working in one spot or testing objects that require constant attention, a force gauge with a test stand is a better alternative.
Check carefully the attachments that come with the digital force gauge. Most digital force gauges have at least one attachment for measuring tension and compression. Some have other attachments as well, like measuring torsion or an object's twisting force.