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Load Button Load Cells 101

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Manufactured devices, technology advancements and product designs are getting smaller and smaller as innovations demand less space to do more for their consumers. As engineers are designing products with miniaturized components, they also need high quality test and measurement solutions that produce accurate results within these smaller testing spaces.

Interface has created a series Load Button Load Cells to meet these exact requirements. These load buttons are designed and manufactured to specifically fit into small and confined spaces, providing the precision-based measurements as expected from larger load cells.

Interface Load Button Load Cells are compact strain gauge-based sensors used in a wide variety of applications, including test and measurement and for general measurement applications. Interface standard LBM and LBS Load Button Load Cells can fulfill the need for compression force measurements at a very respectable precision level for most applications.

Product diameters range from 1 inch to 3 inches, with heights from 0.39 inch to 1.5 inches. The shaped load button load cell has a spherical radius to help confine misaligned loads to the primary axis of the cell. And while these products are small, they are capable of measuring compression forces from 10 lbf all the way to 50,000 lbf. The spherical radius of our Load Cell Load Buttons also help to confine misaligned loads to the primary axis of the cell.

Interface Load Button Load Cells 

Interface’s Custom Solutions Team and Product Engineers can also help to design a specific size and capacity to fit our customer’s exact requirements. Let us know what you need by contacting us here.

Load Button Load Cells Functionality and Proper Use

Applications that use compression loads on load button load cells requires an understanding of the distribution of forces between surfaces of various shapes and finishes.

The first and most important rule is to always avoid applying a compression load flat-to-flat from a plate to the top surface of a load button hub. The reason for this is simple, it’s impossible to maintain two surfaces parallel enough to guarantee that the force will end up being centered on the primary axis of the load button load cell. Any slight misalignment, even by a few micro-inches, could move the contact point off to one edge of a hub, thus inducing a large moment into the measurement.

Minor misalignments merely shift the contact point slightly off the centerline. In addition to compensating for misalignment, the use of a load button load cell of the correct spherical radius is necessary to confine the stresses at the contact point within the limits of the materials. Generally, load button load cells and bearing plates are made from hardened tool steel, and the contacting surfaces are ground to a finish of 32µ inch RMS. If you use too small of a radius it will cause a failure of the material at the contact point, and a rough finish will result in galling and wear of the loading surfaces.

Interface Load Button Load Cells in the Real World 

The evolving world of technology and product design has created a high demand for these types of small and accurate testing equipment. Innovative industries are looking at new ways to fit more capabilities into a single device that is the same size or even smaller. OEM applications that require this type of testing equipment include medical devices, drones, industrial automation, packaging and robotics.

We have highlighted a few examples of how Interface Load Button Load Cells have been used in the medical industry to solve complex challenges related to measuring compression force in confined spaces.

Measuring Vascular Clamp Force

A customer in the medical industry wanted to test various types of vascular clamps to see which type would generate the best clamping force for surgery. Using a Model LBS Load Cell, the clamps were secured onto the compression button. A Model 9330 High Speed Data Logging Indicator provided compression force measurements and allowed the customer to determine the most appropriate clamp type. Read the full application use case here.

Optimizing Surgical Stapler Force

Another customer needed to optimize the design of their surgical stapler to make it easier and more efficient for a medical professional to use. The original equipment manufacturer mounted the surgical stapler onto a test rig to enable force verification, and then connected a Model LBMU Compression Load Cell Button to a Model 9890 Load Cell Indicator. The indicator would collect compression force data from the stapler, and that data was then analyzed to allow the OEM to determine the design changes needed to reduce the amount of force applied to use the stapler.  Learn more about this application here.

For more information on our expanding lineup of Load Button Load Cells, see the overview below. In addition, say tuned in to the IQ Blog for an exciting announcement about new Interface Load Button Load Cell technology.  Most standard Load Button Load Cells are available to ship within 2 business days. Contact us for more information or visit our QS48 now.

Click here to see the full line of Load Button Load Cells.  

Multi-Axis Sensor Applications

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For more than 50 years, Interface has proven itself as the premier provider of load cells, with the most accurate and reliable products on the market. As the technical landscape has evolved, we have invested heavily in new technology to suit the growing needs of our customers. One of the most important innovations we’ve brought to market over the past few years is our lineup of wide-ranging multi-axis sensors.

Interface Multi-Axis Sensors are designed to measure a multitude of forces and moments simultaneously with a single load cell sensor. These sensors provide multiple bridges that precisely measure the applied force from one direction with minimal crosstalk from the other axes.

Multi Axis Sensor 3AXX 3 Axis Load Cells -

Interface Multi-Axis Sensor 3-Axis Load Cell

Interface offers 3-axis, 6-axis, and axial torsion load cells, which provide the ultimate in force and torque measurement. We can measure forces simultaneously in three mutually perpendicular axes, with the 6-axis load cells also measuring torque around those axes. In addition, we offer multiple data acquisition and amplifier systems which make graphing, logging and displaying data easy enough for any experience level.

Our customers work in a wide variety of industries, and we are continually seeing new applications of our range of multi-axis sensors. These sensors are used in aerospace, automotive, medical and more.

The following application examples provide a clearer picture of the benefit of this force measurement and sensor technology.

Rocket Structural Testing – In rocket and aerospace testing, there are a million different considerations to ensure a proper launch. One of the vital force tests that need to be conducted is on the connection between the rocket and the launch vehicle. There are force and moment in multiple directions at the connection point. Interface Multi-Axis Sensors can be used to test not only the strength of the connection but also ensure a safe disconnection between the rocket and launch vehicle.

Drone Testing – One of the most interesting applications of our multi-axis sensors is in the drone industry and in areas of urban mobility. Our sensors are used to test the drone’s rotor. The drone will always pull on the sensor to create the most significant force; however, there is also a slight amount of moment that needs to be accounted for. We were able to calibrate a semi-custom load cell to account for both the large pull force and the small moment force to provide the most accurate data possible.

Prosthetics – Another impressive application of our multi-axis sensor technology is in the medical industry. We helped to test the multiple force and torque data necessary to build a strong and reliable prosthetic knee joint and spine. Each of these prosthetics has multiple motions on many axes. To measure the quality of the prosthetic and to ensure it doesn’t fail when implanted in a patient, medical OEM’s need to be able to collect data on each of these axes simultaneously.

The need for measurements on multiple axes has grown over the last couple of years because of the desire to use big data to create better products. Interface Multi-Axis Sensors provide the accurate measurements our customers need and the ability to collect those measurements simultaneously, which has created a significant boost in efficiency.

To learn more about Interface’s expanding lineup of multi-axis sensors and data acquisition systems, please contact our team of experienced Application Engineers or visit /product-category/multi-axis-sensors/.

Contributor: Keith Skidmore, Regional Sales Director at Interface

Multi-Axis-Brochure