
iQube is a fast and portable 3D plantar foot scanner. A set of 5 cameras provides high accuracy and a bigger scanning area. Hands-free activation allows you to concentrate on a patient. This type of feet scanner is useful when you need more detailed information about the heel or sides of the foot.
This scanner can be used to diagnose specific foot conditions, such as flat feet, high arches, plantar fasciitis, diabetic foot, ulcers, or others, and is often used in the production of custom insoles.




FEATURES


Versatile design
Allows user to scan a foot either a full weight, semi-weight or non-weight bearing position. Also, the 3D foot scanner is often used to scan foot impression foam, negative and positive plaster casts.



2D texture in color
This technology allows medical professionals to easily measure and evaluate foot conditions using 2D imaging tools in combination with 3D foot scanning. This function offers a comprehensive assessment of foot conditions that is both accurate and reliable

Optical button
The optical button allows users to perform scans remotely from the PC with a single press of a button while aligning patient’s foot ankle for the better three-dimensional foot scan result.



Integrated lid / step
Protects scanner glass during transportation and can be used as a supporting stand for a semi-weight bearing scan or as a step for a full-bearing 3D scan. The surface of the step is made of anti-slipping material.
SPECIFICATIONS



Accuracy
0,5 mm – for perfectly accurate foot and foam box scan.

Dimensions
700 x 380 x 150 mm – allows using this scanner in small offices.

Scanning area
340 x 180 x 150 mm – suitable for feet up to size 53 EU/FR.

Weight
17 kg – heavy but sturdy design lets to transport it without damage.

Scanning time
5 – 9 seconds – to capture 3D model.

Output formats
STL, PLY, OBJ, JPEG, PNG for a 3D file and texture exporting.

Connectivity
USB 2.0 Type B – granting quick connectivity to any computer.

Number of cameras
1 RGB & 4 monochromatic cameras – for perfectly aligned 3D model and texture.
INSIDE THE BOX


3D foot scanner
Customizable glass plate design.

Side step / lid
Supports while scanning and protects while transporting – 2 in 1 gadget.

Distancer kit
In case you might need to lift a foam box from a glass plate, to get a better scan result.

Power cable
100-240 V AC, 50/60 Hz – supporting all regions.

USB cable
Selectable 1,8 m or 3 m length cable to fit your needs.

User manual
Allowing quick setup and effortless integration.
ACCESSORIES


Carry bag
For easy transportation with the possibility to add a custom logo.

Footswitch
Allows users to perform scans remotely from PC while assisting customers.
more about iqube 3d foot scanner

The iQube 3D Foot Scanner by Elinvision is a high-precision, versatile, and robust 3D scanning solution designed for professionals in podiatry, orthotics, and custom footwear design. Engineered for speed and accuracy, the iQube delivers high-resolution foot scans in just seconds, making it an ideal choice for clinics and laboratories that require efficiency without compromising detail. Its sturdy design and integrated lid/step ensure durability and ease of use in various clinical settings. Utilizing advanced 3D imaging technology, the iQube captures comprehensive foot morphology with exceptional clarity, supporting a wide range of applications including gait analysis, biomechanics, and custom orthotic production.
Key features of the iQube 3D scanner include:
Ultra-fast scanning time of 5–9 seconds
Scanning accuracy within 0.5 mm
Compatible with foot sizes up to EU 53
Durable design weighing 17 kg
Outputs in multiple formats: STL, OBJ, PLY, JPEG, and PNG
Designed for seamless integration into digital workflows, the iQube enhances diagnostic accuracy, improves patient outcomes, and reduces production time for custom insoles and orthopedic footwear. Whether you’re digitizing foam boxes or scanning feet directly, this professional-grade foot scanner delivers consistent, reproducible results. Discover why the iQube is the trusted solution for modern foot scanning and analysis.