Industrial 3d scanner reviews


Best 3D Scanner - The Top 10 3D Scanners for 2022 [Reviews]

Much like a regular scanner, laser scanning 3D uses various methods to analyze a physical object and then relay that data to a computer to create digital 3D models. The 3D digitizer process might be automatic or users might need to complete the model to their requirements by using software. The aim is usually to get an accurate model to the right standard and format, ready for 3D printing, for virtual reality applications or other purposes. 

Such scanners are used in many professional industries, but with advances in home 3D printing, there are now also a good variety of home options. They are sometimes called portable 3D scanners or handheld scanners if they’re designed as such. These allow you to easily scan small to medium-sized objects for 3D printing.

Some come completely assembled while others, like 3D printers themselves, you’ll have to put them together by yourself. The benefit for those that are good with that type of thing is it reduces the price and allows for easier upgrades and modifications.

Scanning is typically done using laser triangulation or various forms of structured light to surround the object and measure its 3D dimensions or ‘geometry’. High-quality 3D scanner camera lenses also capture the color and surface texture of the object. Using accompanying or third-party software, the model can then be scaled up or down, or completely modified. 

It’s never been easier to scan 3D objects!

How Do 3D Scanners Work?

So, how do you scan 3D objects into a computer? Whether it’s on an industrial scale, at a small business, or on a desk at home, 3D scanners all share similar characteristics in the way they work. 

The majority use laser and/or white light technology and cameras. The physical object is placed in a bed, tray, or suitable location. Electromagnetic light bounces off the object, measuring its circumference, full dimensions, and all its finer details.  

Depending on the scanner it may use multiple light sources, cameras, and other tech to aid this process. The collected data is called a point cloud, which refers to the number of points captured by the laser. 

The more points collected the more accurate the scan. A high-resolution scanner can capture hundreds of thousands of points in seconds and reach millions overall. The whole process only takes a few minutes.

While the light tends to be a measure of the object’s geometry, HD cameras tend to capture the surface detail and color.

The data recorded can then be fed into a computer-aided design program or similar software for inspection and manipulation. E.g. if you’re planning to use it for 3D printing, the model might need scaling up or down, hollowing, have added support structures, be re-colored or have brightness/contrast changes, etc.

There are, of course, different types of 3D scanner and scanning technology. So, let’s take a closer look at each one:

Types of 3D Scanners

There are several 3D scanner types. Before making your decision check out the section below:

Handheld vs Stationary

Handheld and stationary 3D scanners often use the same technology and can overlap in their functions. The difference lies mainly in the design.

 A handheld scanner has a grip and lets the user move around the object themselves to capture it at every angle.

A stationary scanner has to be positioned in front of the object, which is typically placed on a rotating plate and captures it as it spins 360 degrees. The user may have to reposition the object several times to capture every angle. 

Newer designs are becoming smaller and more easily portable.

Laser Triangulation

The most common technology used in 3D scanning is laser trigonometric triangulation. It records millions of different points on the surface of the object to build an accurate overall polygon mesh. These are common in handheld options and industrial-grade scanner machines. They can also work long-range and for laser-tracking objects.

Structured-Light 3D Scanners

Similar and often used interchangeably with laser triangulation, structured light or ‘white light’ projects itself in a grid-like pattern over an object. It can then measure the structure of that grid as it applies to the object by using sensors/3D scanner cameras and triangulation.

Long Range

Longer range scanners use phase shift or pulse technology that can capture millions of points while rotating 360 degrees with the aid of mirrors. This is more commonly used to scan large objects like cars or buildings.

They might also use ‘time of flight’ technology that measures the distance of an object in relation to the speed of light and the time it takes for it to return to a sensor.

This is less relevant for everyday 3D scanning and printing.

3D Scanning Applications

There are many different applications for 3D laser scanning - from those for 3D printing at home, to prototyping, industrial scale medical supply production and even architecture. 

Hobbyist 3D printing

Cheaper 3D scanners are typically used by home users for scanning simple objects and 3D printing them for fun. 

Medical

The medical field and dentistry commonly use 3D scanning to create implants and aids to serve their patients’ needs. For example, scanning people’s feet with a high-quality 3D scanner allows for the creation of orthotics (shoe inserts). It is also used in the creation of prosthetics.

Virtual Engineering

Industrial 3D scanners are used both in the creation and quality control of cars, planes, and even aerospace. It ensures existing parts are as accurate as their original models and that new viable parts are made.

Reverse Engineering and Repairs

From the home computer desk to the manufacturing floor, 3D scanning allows users to reverse engineer or copy existing objects. Saved models also allow for the reconstruction of damaged objects.

Virtual Reality

From creating realistic 3D worlds to the people that occupy them, 3D scanning devices are integral to the growing virtual reality industry. This ranges from AAA video games, virtual cinematography, and computer-generated imagery (CGI), to virtual tours and office meetings. It is also a side industry to motion capture.

Forensics

CSI has come a long way. Forensic experts nowadays don’t just have to rely on memory, photos, and evidence of a crime scene. They can capture the entire location in a full 3D model for closer inspection and for running through different scenarios.

Archeology and Archiving

From museums to libraries, 3D scanning is being used to log and preserve everything from artifacts to digitizing books. This also gives experts and the public remote access.

Architecture

3D scanning can also help architects map the areas they will be designing their buildings in, take inspiration from existing architecture, and aid in building miniatures/prototypes. 

What Should I Know Before Buying a 3D Scanner?

Before you buy a 3D scanner, there are several things to consider: 

  • your budget 
  • what you’ll actually be using it for 
  • it’s speed and accuracy
  •  the device’s other features.
3D Scanner Cost

3D laser scanner price ranges vary greatly. On the cheaper end, you may be able to pick one up for home for just shy of $300, like the XYZprinting 3D Scanner 1.0 A. However, if you want the highest overall quality and the ability to scan small and large objects. Or, if you’re a professional and need a 3D part scanner in a field like medical implants or automotive parts, you’re looking at anywhere between $3,000 and $35,000.

Typically, it’s best to look for 3D scanners for sale online where you can find the best selection and prices.

3D Printing

While a dual 3D printer scanner combo is rare, if you want to scan models for 3D printing, you will need to make sure it has good accuracy and resolution. The software also must be able to export to a usable format. You will need to check your 3D printer and its own software to see what file types it accepts and then choose your scanner accordingly.

Fortunately, almost all of our 3D scanner reviews include devices that can export in common file types like OBJ and STL.

It’s typically only the more expensive scanners that are good for other applications, like VR, full-body scanning, architecture, and engineering.

Handheld vs Stationary

We already explained the difference, but basically, a handheld scanner is mobile, while the stationary one will require you to move and adjust the object. Neither is necessarily better than the other, it’s all down to your needs.

Speed

How fast is the scanner? Do you have a lot of spare time or require the job to be done as fast as possible? All 3D scanners will take a few minutes to complete, while many scanning complex objects in high resolution can talk half an hour or longer.

Accuracy and Resolution

Accuracy refers to how close to the object being scanned your digitized model will be, measured in millimeters. Therefore, the smaller the better. The term resolution may be used interchangeably with accuracy or refer to the resolution of any cameras being used as part of the scanning process. 

Generally, the lower the millimeter, the better. Other factors also play a role in overall quality, such as lighting conditions, color, and depth.

Object Size and Space

Some types of 3D scanners excel at scanning small objects while others are better at medium to large. Others are all-rounders. Before buying a scanner, you should decide the general size of the items you will be scanning. 

You will also need to make room for the scanner. Although all the products on our list are small and relatively portable, stationary scanners at least need a table to work from. Likewise, there will be a minimum and maximum distance the scanner must be in relation to the object being scanned. 

You’ll need more room when scanning larger objects in full.

Connected Devices

All 3D scanners need to be connected to a computer or device to help monitor the process and for saving the digital model. This is usually done via a USB or HDMI cable. You will need to check that your computer or laptop meets the minimum requirements for the scanning and modeling software. Also, make sure that you have a tablet to make real-time monitoring easier. 

Software

Your device will either come with its own software or a popular third-party program to aid the process and to help touch-up the model once it’s scanned. Different 3D printing software is better suited to different skill levels. Some programs have a lot of features for experienced users and others do most of the basic tasks automatically. Check our 3D scanner reviews to see the software each device comes with and how advanced and easy to use it is.

Wrap Up

Whether you’re looking for a tool for your home or something more on an industrial scale for your business, our 3D scanner reviews have something for everyone. From handheld devices to structured lightboxes with turntables, you’ll be creating 3D models or reverse engineering parts in no time. Perhaps you’ll even do a 3D selfie or two!

If you’re still unsure about 3D printing after reading our reviews and guides, check out our answers to your most commonly asked questions below.

The Best 3D Scanners in November 2022 (Hobbyist & Commercial)

3D scanners are changing how we make, design, and see the world. By scanning nearby objects, people and almost anything else, these scanners create entire 3D digitized models of physical objects in just seconds.

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Sometimes called 3D laser scanners, 3D model scanners or 3D object scanners, 3D scanners are integral for custom 3D printing and other fun home 3D scanner uses, for saving historical artifacts as digital models, dentistry – and so much more.

What’s more, you can now pick up powerful low-cost 3D scanners for just a few hundred dollars, and if you’re content with low-quality basic scans, you can even use your phone!

BUDGET PICK

Revopoint POP 2

Versatile and portable with handheld & stationary options and color scanning

Up to 0.05mm accuracy on a small scanner that costs under $1000

Available At revopoint here Amazon here

MID-RANGE PICK

Matter & Form V2

Accurate 0.1mm scans

Powerful stationary scanner for 25x18cm objects

Comes with specialized software

Available At matterhackers here amazon here

PREMIUM PICK

Shining 3D EinScan H

0. 05mm scan accuracy and 0.25mm resolution with 1.2 million points/s

Infrared scan sensors make scanning darker colors easier

List one of the features/benefits

Available At Dynamism here

To rank the best 3D scanners, we considered:

  • Accuracy and resolution
  • Scan area (benefiting handheld scanners that can scan larger areas)
  • Scan speed
  • Ease of use
  • Price-performance ratio
  • Versatility

We also separated our 3D scanner reviews into three main price categories:

  • 3D scanners under $1000
  • Mid-range 3D scanners ($1,000 to $10,000)
  • Industrial 3D scanners ($10,000+)

The Best 3D Scanners for All Prices Ranges

3D Scanner Brand & NameType of 3D ScannerPriceWhere to buy and where has the best price
Revopoint 3D POP 2Structured Light$699Revopoint 3D here
Creality CR-Scan 01Structured Light$700Creality Store here
SOL 3D scanner by Scan DimensionDesktop 3D Scanner$699Amazon here
BQ CiclopLaser Triangulation (DIY)Depends if pre-assembled or DIYAmazon here
Matter & Form V2Desktop 3D Scanner$749Amazon here
Shining 3D EinScan SEDesktop 3D Scanner$1,399Amazon here
EinScan HHandheld$4,999Dynamism Store here
Shining 3D EinScan Pro 2X PlusHandheld 3D Scanner$6,800-$8,300Amazon here
Scantech iReal2EHandheld 3D Scanner$3,980Scantech Site
Artec EVAIndustrial 3D Scanner$19,800
Scantech SIMSCANPortable 3D scannerContact for priceScantech site
Scantech KSCANHandheld 3D ScannerContact for priceScantech site

But before we get into the best scanners, here’s a quick intro to how 3D scanners work:

How Does a 3D scanner Work?

3D scanners work by creating point clouds based on images taken of a solid surface or object — basically huge numbers of data points that denote where an object is — to create a 3D model of the scanned part. Millions of individual data points make up the model, which you can then export as an STL, OBJ or other file type and import to CAD software, or 3D print via a slicer.

3D scanning includes several different technologies, such as Structured Light scanning and Laser Triangulation, while some are stationary and some are handheld.

The Best 3D Scanners 2022: Budget Picks

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Revopoint POP 2

  • Price: $699 — Available at Revopoint Official store here
  • Precision: 0.05 mm
  • Scan Speed: 10 FPS
  • Minimum Scan Volume: 20 x 20 x 20 mm
  • Single Capture Range: 210 x 130 mm
  • Working Distance: 150 – 400 mm
  • Point Cloud Distance / Single-Frame Accuracy: 0.15 mm

We were extremely impressed with the Revopoint POP 2 when we tested it recently, and overall we feel it’s the most versatile and powerful 3D scanner under $1,000. While there are some great stationary scanners like the Matter and Form V2, the Revopoint’s usability for turnstile stationary scanning, color scanning, as well as handheld scanning for faces and bodies makes it the ideal multi-use 3D scanner.

Scanning a toy with the Revopoint POP 2 using the “fill holes” setting (often leave it off and sort any errors in post).

The POP 2 notably upgrades on the original POP, with precision increased from around 0.3mm to up to 0.05mm (our tests found it to be in the 0.07mm range, which is still very impressive), a slightly faster scan speed of 10fps vs 8, and a slightly smaller minimum scan volume of 20mm³ vs the original POP’s 30mm³.Testing the precision accuracy of the Revopoint POP 2 during calibration.

It scanned color images well when we tested it on some kids toys and a multi-color Rubik’s cube, and scanned faces accurately (but you need to change some settings around to prevent any noise distorting your scanned faces). Don’t automatically mesh clouds however when face scanning – it’ll create distorted scans such as this one we tried.

Overall, we highly recommend it as one of the best scanners in its price range – standard scanning, face scanning, color, or entire body scanning, it’s good for all uses.

Testing the color 3D scanning and editing the scan in Revo Studio software.

Compare the scanners: Revopoint POP vs POP 2


Creality CR-Scan 01

  • Price: $650-$700 — Available at Creality Official store here / Amazon here
  • Accuracy: 0.1 mm
  • Resolution: 0.5 mm
  • Max Scan Volume: 536 x 378 mm
  • Technology: Structured light
  • Speed/Frame Rate: 10 FPS

With a cemented reputation for offering some of the best budget 3D printers on the market today, Creality aims to do very much the same with the affordable Creality CR-Scan 01 3D scanner. It employs structured light technology to feel out the shape, size, and texture of a 3D object to generate a digital reproduction.

Creality has fitted the CR-Scan 01 with both a handheld mode and a stationary turntable mode, each with their own set of advantages:

  • In handheld mode, the scanner quickly works through larger objects, offering flexibility and on-the-fly capture.
  • Switch to turntable mode, and the tripod-mounted Creality CR-Scan 01 creates an automated, higher-accuracy 360° scan as the object rotates on the turntable.

Both modes offer accuracy of 0.1 mm, a resolution of 0.5 mm, 24-bit high-fidelity color mapping, and marker-free scanning thanks to a clever alignment algorithm.

The Creality CR-Scan 01 also makes smart adjustments based on light levels, making it suitable for low-light environments. These are all excellent features for the asking price and sufficient for most hobbyist scanning needs, although somewhat lacking for high-precision scanning.

However, where the Creality CR-Scan 01 shines is a distance of 400-900 mm, which outclasses most budget 3D scanners, with a scanning area of 536 x 378 mm. In practice, you can scan medium to large objects further away with a larger frame size, which speeds up the scanning process considerably.

Finally, the bundled Creality’s CR Studio is a robust post-processing suite with all manner of editing, repair, color, and smoothing tools to polish off digital scans ready for 3D printing or other applications. It’s a solid competitor to the Revopoint scanners.


SOL 3D Scanner by Scan Dimension — Perfect desktop 3D scanner

  • 3D scanner price: $699 — Available on Amazon here
  • Accuracy: up to 0.1 mm
  • Scan volume: up to 170 x 170 mm
  • Scan speed: 10 min in Turbo mode, 20 min normally

SOL is a desktop laser scanner designed for scanning small yet detailed items, with good accuracy for the price.

The actual scanner itself weighs just 7 pounds, and can scan objects that weigh up to 2kg. This light weight makes it a perfect portable 3D scanner if you’re on the move.

It has two different modes depending on what you’re scanning:

  • Near mode: for scanning objects of up to 100 mm in diameter and 100 mm in height.
  • Far mode: for scanning objects up to 170 mm in diameter and 170 mm in height.

The SOL boasts an accuracy of around 0.1 mm, extremely good for the price range. You scan objects with their included SOL 3D software, and can then easily export your scans as OBJ or STL files and import them into a 3D slicer for 3D printing.

Danish company Scan Dimension promotes this impressive 3D visualizer not only for makers or hobbyists, but also for entrepreneurs. They sell the SOL 3D scanning camera as a way for entrepreneurs to show their products off with a 360-degree view, with easy ways to share these scans on Facebook.

Additionally, Scan Dimension say the scanner is also perfectly suited for education, for teaching students STEM education through scanning and editing structures.

Overall, it’s well suited as both a 3D scanner for businesses, as well as a home 3D scanner for hobbyists.


BQ Ciclop — Home-made 3D scanner for technical makers

  • Price: Depends if buying or DIY — Available on Amazon here
  • Resolution: 0.5 mm
  • Scan time: 2-8 mins
  • Maximum scan volume: 200 x 200 x 205 mm
  • 3D scanning technology: Laser Triangulation

Unlike many scanners, this DIY 3D scanner is open source, with all the files hosted on Thingiverse for you to download and print. The Ciclop has proven popular, with tens of thousands of downloads on Thingiverse alone.

BQ provides all of the information, software, and electronics for this 3D scanner kit which you can modify for yourself on their website, and other variations have been brought to market offering tweaks and improvements on the opensource design, such as CowTech’s version.

Read more: the other variations of Ciclop feature in our DIY 3D scanners review

The BQ Ciclop 3D scanner uses laser triangulation technology, and can scan objects in a few minutes. Moreover, the simple and well-written instructions allow anyone, no matter their skill level, to build the scanner in under an hour. BQ host downloads for all the drivers for the camera and firmware that you need, and developed a specialized 3D scanner app called Horus for scanning on your Ciclop.

It’s simple but effective. It’s made from ten 3D printed parts (download .STL files from Thingiverse), a threaded rod, a Logitech C270 webcam, two line lasers, and a turntable platform with a stepper motor, though you can edit and modify it as you wish.

The BQ Ciclop scans a volume of 250 x 205 mm and has a resolution of up to 0.5mm. It can be connected via USB or Bluetooth, making it a versatile and affordable low-cost 3D scanner for beginners.

Spanish tech company BQ have released this open-source 3D scanner which you can put together inexpensively.

Matter and Form V2 MFS1V2 — Portable 3D scanners under $1,000

  • 3D scanner cost: $749 — Available on Amazon here / Available on Matterhackers here
  • Scan volume: 250 x 180 mm
  • Accuracy: within 0.1 mm
  • Scan speed: up to 65 seconds

The Matter and Form V2 is an updated version of the original desktop 3D scanner made by the Canadian tech startup. This low-cost 3D scanner uses 2 lasers and an HD-CMOS sensor to produce high-resolution, full-color 3D scans.

The scanner has an accuracy of up to around 0.1mm, and is easily connectable to your computer through USB to transfer over your scans.

For editing scans, the Matter and Form scanner comes with specialized Mfstudio, and +Quickscan which boosts scan speed to up to 65 seconds. You can then export the STL file and print them with your 3D printer.

The 3D scanner can scan objects in sizes up to 25 cm tall and 18 cm in diameter. It is compatible with every major OS, so Mac users needn’t worry. What we like most however is that it folds up, making it a perfect portable 3D scanner.

The new Matter and Form scanner can generate a full 3D scan in 65 seconds.

Medium Priced 3D Scanners: $1,000 to $10,000

Shining 3D EinScan SE — Best 3D scanner under $2000

  • Price: $1,199 — Available on Amazon here / Dynamism here
  • Scan accuracy: within 0.1 mm for single shots
  • Scan range: single scan = 200 x 150 mm, maximum scan range = 700 x 700 mm
  • Scan speed: a single shot is under 8 seconds

Shining 3D have made a name for themselves in the medium-range 3D scanning sector, with cheaper options such as the EinScan-SE as well as more expensive scanners like the EinScan Pro 2X Plus.

The EinScan SE is one of the best 3D object scanners in its price range. It scans in around 8 seconds (versus 4 seconds for the EinScan SP) and can complete a whole 360-degree scan in its Automatic Scan mode in around 2 minutes.

It can scan objects up to around 200 mm wide and 150 mm tall, with a single shot accuracy of within 0.1 mm — making it one of the best 3D scanners under $2000. For a fixed scan without the turntable, max scan volume increases up to 700 x 700 mm.

Overall, this 3D model scanner is accurate, reliable, and makes it easy to quickly scan stationary objects and 3D print them with ease. The EinScan SP — described in more detail further in this guide — is more precise, but costs more. Therefore, it’s a matter of your budget and how important this additional quality is for you personally.


EinScan H

  • Price: $5,000 — Available at Dynamism here
  • Accuracy: 0.05 mm
  • Resolution: 0.25 mm
  • Max Scan Volume: 780 x 900 mm
  • Technology: Hybrid structured light LED and infrared
  • Speed/Frame Rate: 1,200,000 points/s, 20FPS

The EinScan H is a professional-grade handheld 3D scanner that combines speed, accurate reproduction, and ease of use with a particular emphasis on bringing usually tricky 3D objects to digital life.

The EinScan H combines two light sources – structured LED and invisible infrared – to cover a wide range of 3D objects, modes, and applications.

For example, the infrared light excels at capturing the detail and intricacies of darker colors, notably those of human hair and general facial scanning – with dark hair the bane of any experienced face 3D scanner.

An added benefit of the invisible light is more comfortable scanning for the subject and no on-face glare to complicate the scanning process.

Manufacturer Shining 3D has also gone to considerable lengths to merge impressive accuracy and resolution along with fast scanning speeds. The EinScan H pushes a resolution of 0.25 mm with accuracy as low as 0.05 mm, all at roughly 1,200,000 points/s at 20FPS.

The scanner also features authentic, full-color reproduction with solid texture mapping that translates to systematically excellent scan quality.

According to Shining 3D, it’s possible to scan an entire human body in fine detail in a matter of minutes. A generous 420 x 440 mm single capture range helps keep things speedy even when scanning large objects aided by an optimized alignment algorithm to keep scans crisp and precise.

Although priced at $5000, the EinScan H falls roughly in the affordable range and is a versatile tool suited for healthcare, art, forensic science, and other professional 3D modeling applications.


Scantech iReal 2E Color 3D Scanner — A complete 3D scanning solution

  • Price: $3,980
  • Scanning area: Up to 850 mm x 800 mm
  • Accuracy: Up to 0.100 mm

iReal 2E is a professional handheld color 3D scanner manufactured by Scantech. The company specializes in developing, manufacturing, and selling intelligent visual inspection equipment and sells an entire range of 3D scanners for various applications and sectors.

The iReal 2E uses red VCSEL structured light technology to offer you a simple and safe 3D scanning experience, eliminating the issues of dazzling lights and difficulties in hair 3D scanning.

Without attaching markers, a quick and accurate texture and geometry scan can be achieved with a wide scanning area of 850 mm x 800 mm, 750 mm depth of field, 1.5 million measurements per second, and at 0.100 mm accuracy. Mixed alignment modes meet various scanning situations.


Shining 3D EinScan SP

  • Price: $2,599 — Available on Amazon here / Dynamism here
  • Scan range: single scan = 200 x 150 mm, max scan range = 1200mm³
  • Accuracy: within 0.05 mm for single shots
  • Speed: single shot speed of under 4 seconds

The second Shining 3D medium-range 3D scanner in our ranking, the EinScan SP is more accurate than the EinScan SE, with accuracy up to 0.05 mm rather than 0.1 mm, and scans single shots in half the time (4s vs 8s).

To save you time: double the price, double the accuracy — and half the scanning time.

The scanner uses white light scanning technologies to make very accurate scans of objects as small as 30 x 30 x 30 mm.

Full objects are typically scanned in less than a minute, and images in less than four seconds.

What’s more, despite its cheaper price, many buyers have reported that it can compete with scanners costing ten times as much for scan quality. It also comes with a tripod for stationary object 3D scanning.


Shining 3D EinScan-Pro 2X Plus — One of the best 3D scanners around

  • Price: $5,999 (full industrial pack costs extra) — Available on Amazon here / Dynamism here
  • Accuracy: up to 0.04mm in fixed scan turntable mode
  • Volumetric accuracy: 0.3mm/m
  • Speed: fixed scan single shot in under 0.5 seconds / up to 30fps with handheld use

The EinScan-Pro 2X Plus costs more than the EinScan SP and H, and can be used as a fixed or handheld 3D scanner to capture various-sized objects.

It uses white light 3D scanning technologies to increase accuracy and scan faster (sub 0. 5-second single shot scans), creating high-quality scans in record time.

You can simply hold the scanner and point it towards the object or room you want to 3D scan, and instantly record crisp scans of your surroundings. Whereas lower-cost scanners limit you to desktop sizes, the Pro 2X Plus frees you to capture entire rooms.

You may want to 3D scan a car, your friend, or even turn it into a baby 3D scanner for a 3D memory of your child before it grows up!

You retain the accuracy however with the scan volume freedom, with accuracy up to 0.03mm for objects less than 4m away.


Industrial & Professional 3D Scanners: $10,000+

Artec EVA — Powerful handheld 3D scanner

  • Price: $19,800
  • Accuracy: up to 0.1 mm + 0.3mm/m
  • Resolution: up to 0.2 mm
  • Speed: captures up to 16fps in HD and full-color
  • Working distance: 0.4m – 1m

Creating new innovative solutions in 3D technology since 2007, Artec 3D is a global leader in handheld 3D scanners. Their most popular scanner, the Eva, is a handheld, industrial 3D object scanner, and an excellent solution for medium-sized objects ranging from motorcycle wheels to car exhaust systems, human busts and facial close-ups.

Light, quick, and versatile, Artec Eva captures precise measurements in high resolution, while structured light scanning technology makes the scanner safe to use in any situation – even difficult to scan surfaces such as black or shiny surfaces are effectively captured by Eva.

Ideal for use in industries including product design, heritage preservation, healthcare, and reverse engineering, this market leader can accurately scan full-color objects at a range of up to 100cm with color and texture, making it a great solution for fast and accurate 3D models.


Scantech SIMSCAN — hand-sized portable 3D scanner

  • Accuracy: up to 0.020 mm
  • Resolution: up to 0.025 mm
  • Scanning area: up to 410 x 400 mm

Scantech’s SIMSCAN consists of two sets of industrial black & white cameras, a laser projector with 30 laser lines, and a set of multifunctional buttons. Its high-quality components ensure fast and stable 3D scanning.

It features three scanning modes: ultra-fast scanning, hyperfine scanning, and deep hole scanning optimized for different scanning situations. With its intelligent auxiliary lights, it can even scan darkly lit objects.

Powered by a robust algorithm, SIMSCAN’s measurement rate can be up to 2.02 million measurements/s with an accuracy of up to 0.020 mm. It has a field of view of up to 410 x 400 mm.

With a net weight of 570g, SIMSCAN can be among the top list of the most lightweight and portable 3D scanners in the market. It is designed for both beginners and professionals to conduct 3D scanning regardless of ambient conditions. Thanks to its compact size and portability, SIMSCAN enables on-site and efficient 3D scanning, and it suits well for scanning hard-to-reach areas.

Made from aerospace-grade aluminum-alloy, Scantech’s SIMSCAN scanner is sturdy and durable and performs well in heat dissipation. Its material ensures a prolonged use of the 3D scanner. With an anti-slip shell and a hand strap, you can orient this scanner in any way you choose to suit your 3D scanning needs.


Scantech KSCAN-Magic — industrial handheld 3D scanner

  • Resolution: 0.010 mm
  • Scanning rate: 1,350,000 measurements/second
  • Scanning area: 1440 x 860 mm

Esteemed 3D scanner company Scantech have announced the launch of their latest KSCAN 3D scanner, with 5 five different modes for all types of scanning. These include a large area scanning mode, fast scanning mode, photogrammetry, as well as a fine scanning mode. Featuring both infrared lasers and blue laser technologies allows the KSCAN-Magic to accomplish a wide range of scanning functions effectively.The KSCAN-Magic 3D scanner can handle large, industrial objects like plane parts, as well as intricate, smaller objects.

It scans accurately, quickly, can handle small and large objects, and is designed to accelerate time-to-market. The 41 equipped laser lines can handle an incredible 1. 35 million measurements per second, creating detailed scans in record time.

If you are looking for leading-edge 3D solutions for your business, KSCAN definitely surpasses expectations with its resourcefulness and precision.


Are 3D Scanners Worth It?

3D scanners are almost always worth the investment, but to decide which is best for you, you’ll need to consider your budget, needs, and priorities. Keep an eye on scan resolution quality and accuracy, scan speed, and price to find a 3D scanner that’s worth it for you.

Buyer’s Guide – Things To Consider When Buying A 3D Scanner

Budget

Expect to pay anywhere from $400 to $200,000 for a 3D scanner. There are numerous options suited to all budgets dotted between those two extremes.

Entry-level hobby scanners suitable for 3D printing are available for less than $1,000, while more robust machines suited for light-professional scanning sell for around $5,000.

Should you want the cream of the crop scanners designed for the most-demanding industrial-level applications such as engineering, expect to pay more than $10,000.

Speed

When applied to 3D scanners, speed refers to the rate at which a machine captures or scans a 3D object. Consumers and most professional 3D scanners record speed in points per second or frames per second. The higher the count, the faster the scanner.

If you’re buying for a professional setting where productivity is critical, we recommend eyeing faster printers, which generally push points per second into the millions and frame rates around 20 FPS.

Resolution and Accuracy

Accuracy refers to how well the finished digital object matches its real-world counterpart. Accuracy pops up in specification sheets expressed in mm, which indicates to what degree the 3D scan sticks to the shape, size, features, etc., of the real-world object.

For a budget 3D scanner, 0.1-0.2 mm is a solid reference point, while much more expensive industry scanners can jump to as low as 0.009 mm on the most powerful devices.

Though similar to accuracy, the resolution refers to the smallest possible distance between points on a 3D scan. In layman’s terms, a higher resolution delivers finer details and more intricate, faithful features. You’ll find manufacturers refer to resolution in mm, a measure that balloons and shrinks based on the price of the 3D scanner.

Budget printers waver around 0.3-0.5 mm, while professional scanners can push resolutions as high as 0.1 mm.

Software and Connectivity

Connectivity refers to how a 3D scanner allows you to scan, export work, and interface with a PC or other device as well as the source of power. In most cases, USB is the standard, with some outliers offering Bluetooth.

If you’re looking for portability, consider handheld scanners that pair with Smartphones and power banks so you can quickly scan on the move.

Software tied to 3D scanners come in all shapes and sizes, from barebones scanning tools to advanced suites with all manner of post-processing touch-up options.

It goes without saying that software capabilities match the target audience of each scanner. Pay more for a professional scanner, and the software generally features a more robust set of tools.

Use Case

Entry-level 3D scanners are a good option for hobbyists looking to scan objects with 3D printing in mind. They are just about affordable and work well, although they lack the detail and speed of pricier models.

We recommend handheld 3D scanners for larger models. These grant a degree of freedom and movement to capture all the detail and breadth of bigger objects. A large scan area helps speed up scanning large objects, too.

For small fixed object scanning, where capturing all the rich details and texture of a model tops your list of requirements, look to stationary scanners, ideally with a turntable, tripod, and an optimized alignment algorithm.

3D Scanning to 3D Print

3D scanners are often used to create 3D printable models, with 3D scanner and 3D printer setups allowing you to replicate almost anything in front of you. Simply use the 3D scanning camera to create a digital model of your object, and then 3D print the scan.

Large objects can be scanned using handheld 3D scanners and moved around the object’s dimensions, and then sized down and 3D printed as a scale model. These 3D printer scanner combos offer almost limitless versatility.

3D Scanner Cost

Budget/entry-level

Thanks to efforts from companies like Creality and Revopoint, there’s a concerted effort to lower the cost of entry and boost accessibility to 3D scanners.

It’s now possible to buy a decent entry-level scanner for under $1,000, with ultra-budget options like the Phiz 3D scanner dropping as low as $400.

Even though the experience and features measure up to the price paid, budget 3D scanners offer everything needed to create decent quality scans suitable for hobbyist applications.

Read more: the top low-cost 3D scanners

Mid-range

Jumping up to the mid-range category, you’ll find 3D scanners priced anywhere from $1,000 to $10,000. These are generally professional-grade machines with a range of tech, modes, and excellent scan quality, striking a balance between functionality and price.

Top-range/Industrial

The top-shelf 3D scanners. Expect to pay upwards of $10,000 for industrial-grade devices. These are very much no-compromise options boasting the peak in accuracy, resolution, and scan speeds for industry applications such as scientific measurements, reverse engineering, demanding 3D visualization, architecture, and rapid prototyping.

3D Scanner Uses

Medical: custom orthopedics, wheelchair and mobility aids, prosthetics, plastic surgery implants, protective equipment, realistic dummies for training.

Dental: bespoke implant and crown design suited to specific patients.

Jewelry: bespoke designs, repairs, and easy duplication/replication of damaged family heirlooms or discontinued jewelry with sentimental value.

Hobbyist 3D Printing: scanning real-world objects for reproduction using a 3D printer. Miniatures, cosplay, household items and repairs, toys, and other functional parts.

Virtual Reality and Game Design: real-world object/landmark scanning for use in VR environments, and body scans to create realistic animations and in-game models.

Engineering: tolerance testing, quality control, data analysis, fully textured models, infrastructure building and monitoring.

Reverse Engineering and Repairs: automotive, aviation, naval repairs, and restoration of antique or discontinued vehicles.

Archeology and Conservation: heritage conservation of objects, artifacts, and skeletal remains.

Architecture: building scanning for surveying, design, and reverse engineering degraded exteriors for repair.

Forensics: digital replicas of crime scenes to capture evidence such as shoe prints, blood stains, bullet holes, and so on.


Types of 3D Scanners

The main types of 3D scanners include:

  • Laser triangulation 3D scanners
  • Structured light 3D scanning
  • Photogrammetry
  • LIDAR (time-of-flight)
  • Metrology 3D scanners
  • Intraoral 3D scanners for dentistry
  • 3D body scanners

The two most-used technologies are structured light scanning and laser triangulation.

Structured Light Scanning

Structured light scanning is commonly used in handheld 3D scanners and involves projecting patterns of light at an object, with two cameras usually placed on either side of the projector to measure the light pattern from each side and calculate precise differences at every point in their field of view.

These cameras measure how the light deforms the light pattern, and by triangulating these multiple different reference points across different images of the scan from each camera view, you can accurately calculate the dimensions of the object.

As a result of its portability and accuracy, dental 3D scanners typically use structured light scanning to scan patients’ mouths and create dental implants and models. Beyond this however, architects and historians are using these types of 3D scanning to keep digital records of priceless historical monuments, and NASA even use it to map interplanetary terrains.

However, the use of projected light makes it very sensitive to the lighting conditions in the scanning environment, so working outside or in other similar environments can be difficult.

Laser triangulation

Laser scanning involves projecting a laser point on an object and then using sensors to capture the reflections to gather data on the object’s size. Based on the reflection angle from the laser’s sensors, the 3D scanner can create accurate textures and surfaces using trigonometric functions.

However, because it works off reflections it can be ineffective if scanning shiny or reflective surfaces, and won’t work well with anything transparent.

Structured light scanning is generally considered more accurate than laser scanning, with less noise in scans.

LiDAR 3D scanning and Time of Flight 3D scanning

Another form of 3D scanning, and the technology used in the latest iPhone 12 Pro, is LiDAR. Light Detection and Ranging involves shooting out light beams and calculating the object’s area — based on the speed of light — on the time taken to reflect back to the Lidar 3D scanner.

These are very similar to time-of-flight 3D scanners. These scanners shoot light pulses, calculating the time of flight for each pulse to create a 3D visualization — or point cloud. They’re commonly used to map terrains, measure real estate, and in architecture and construction.

Handheld 3D Scanners

Portable and versatile by design, handheld scanners allow you to efficiently and freely scan large objects, narrow spaces, or all the details of a human subject, for example.

Stationary 3D Scanners

Fixed scanners are a solid option if you plan to scan small objects and want the device to do most of the heavy lifting. They generally come with a stand or tripod and turntable. Automated scanning is also typically part of the deal here, with different modes of alignment to choose from.

3D Body Scanners

As the name implies, 3D body scanners are specifically designed to capture a full 3D scan of human bodies.

Towering machines, usually priced in the tens of thousands of dollars, 3D body scanners provide a fast and accurate 3D body scan for various applications, including health, fitness, animation, and more.

Read more: our feature story on 3D body scanners.

3D Scanner FAQs

Which is the Best 3D Scanner?

For those on a budget, our top pick is the Revopoint POP. It’s versatile, portable, affordable, and offers a solid level of accuracy for the price.

The EinScan H is a solid mid-range option for businesses and professionals looking for fast, highly-accurate printing.

Finally, if you want the best on the market today and have the budget to spare, Scantech’s SIMSCAN and KSCAN or the Artec EVA are all top-shelf options for the most demanding applications.

Who Makes the Best 3D Scanner?

Revopoint with their POP 3D scanner range, along with Creality’s low-cost scanners, make some of the best 3D scanners for hobbyists at home.

Companies like Artec, Shining 3D with their Einscan range, Scantech, and Creaform are known for high-quality commercial scanners.

What Is The Best 3D Scanner For Small Objects?

We recommend a stationary 3D scanner like the BQ Ciclop for affordable home scanning, and the Shining 3D EinScan SP for professional small object scanning.

What Is The Best 3D Scanner For 3D Printing?

We recommend the Creality CR-Scan 01. Creality has made the most of its 3D printing know-how to design a scanner that blends seamlessly into the 3D printing workflow. It’s compact, versatile, and reasonably accurate, perfect for most 3D printing hobby applications.

What Is The Best 3D Scanner For Reverse Engineering?

Scantech’s SIMSCAN rises above the rest as our top choice for reverse engineering. It’s particularly adept at capturing highly-detailed and accurate scans of objects in hard-to-reach spaces, perfect if you’re looking to reverse engineer a part from an aging piece of machinery or antique car, for example.

we choose the best in 2022 in our direction

In order to expand the user audience, SHINING3D offers universal solutions - the same 3D scanner is able to satisfy the needs of ordinary consumers and be in demand in industrial production. Based on the feedback and reviews of device owners, the developers have improved the line of models, making 3D digitization and additive technologies even more accessible.

Contents:

  1. EinScan 3D scanners
  2. For beginners, designers or education
  3. Scanners for objects of various sizes
  4. 3D scanning of people and their faces
  5. EinScan Pro 2X 3D scanner 2020 900 Transcan0
  6. 3D-scanner 8 C007 indicators need to be understood in order to choose what you need
  7. Accuracy
  8. The use of professional 3D scanners in metrology
  9. The use of 3D scanners in mechanical engineering
  10. Reverse engineering
  11. Quality Control
  12. Laser 3D scanner Freescan UE
  13. High-precision stationary 3D scanner Autoscan Inspec
  14. OptimScan-5M Metrological 3D scanner 9000 EinScan Series 3D Scanners

    For Beginners, Designers, or Educational Entities

    The small-figure scanning application requires precision and advanced settings in the capture software. The first thing users are guided by is the scanning area. Using two models - EinScan-SP and EinScan-SE - it will be possible to scan an object from 30 × 30 mm.

    EinScan-SP and EinScan-SE are useful for beginners, designers and educational users. Desktop scanners SE and SP are the easiest to learn.

    Key benefits:

    • Easy device setup with Plug and Play technology;
    • Russian software interface;
    • the ability to scan objects of different sizes - from small to large;
    • texture tracking.
    3D Scanner Photo EinScan-SP
    • 4-8 seconds per scan;
    • Russified software;
    • automatic and fixed operation;
    • Aligns scanned data with marks.
    3D Scanner Photo EinScan-SE
    • 8 seconds per scan;
    • 2 minutes for 360 degree Auto Scan;
    • Russified software;
    • automatic alignment of multiple scans;
    • API access service for 3D printers of any brand.

    Scanners for objects of various sizes

    a

    In this category, models with the “H” index successfully demonstrated their capabilities: EinScan H , EinScan HX from the line of hybrid devices.

    The portable EinScan H is the most affordable for the price.

    0066

  15. EinScan H - an infrared emitter has been added to the LED illumination;
  16. EinScan HX - white LED light combined with a blue laser.
  17. This high-tech solution makes it possible to use these two professional scanners. Manual mode allows you to scan objects of different sizes - medium and large.

    Photo of a 3d scanner EinScan HX
    • Structured radiation of the LED source and scanner laser;
    • In Laser Scan mode, the scan accuracy is 0.04 mm;
    • Minimum point distance 0.05 mm;
    • High efficiency in fast scan mode - 1,200,000 points/s;
    • Full color copy.

    Copying accuracy is so great that when scanning works of art, it is possible to obtain a perfect replica. For medical institutions, this is also a worthy find. Separately, it should be noted the presence of a built-in color camera.

    3D scanning of people and their faces

    Living objects require special scanning technology. You can get a digital copy of a fragment of a human body, face and hair using EinScan H hybrid models - thanks to two light sources and a color camera, they produce an ideal 3D model with texture preservation.

    • Two scanning technologies - LED and invisible infrared light, combined in one device;
    • Scanning people (portrait, full-length) and other living objects;
    • High accuracy of scanned data up to 0.05 mm and volumetric accuracy of 0.1 mm/m;
    • Fast scanning and large FOV scanning 420*440 mm.

    HX is a universal model, and Einscan Pro HD/Einscan pro 2x 2020 are multifunctional scanners, have the ability to perform tasks in various industries.

    EinScan Pro HD is an upgrade from the older model of the Einscan Pro 2x series due to its ergonomic and high quality design. Models in this range can be used with a special tripod.

    This professional 3D scanner provides high scanning accuracy in both operating modes: up to 0.045+0.3 mm/m.p. in manual mode and up to 0.04 mm. in fixed scan mode.

    Manual mode has two sub-modes: Rapid and HD, the latter providing a higher level of detail.

    The maximum possible speed of this scanner is 3 million points per second. Even aside from the specs, you can see that the device is extremely fast in real-life scenarios. For example, a 220 x 71 cm low relief sculpture can be fully digitized in color in less than a minute.

    Scanning of human bodies is also possible with this device, it provides decent quality. Last but not least, the device can scan color materials, including even textured images. This feature is available as a paid option called the Color Pack.

    EinScan HX is more expensive than EinScan H, and professional scanners, which include EinScan Pro HD, are traditionally more expensive than other "classmates" and therefore available to large additive manufacturing.

    EinScan Pro 2X 2020 3D Scanner

    Portable and versatile handheld 3D scanner for high precision results

    The EinScan Pro 2X 2020 3D scanner is an excellent option for scanning small, medium and large objects.

    3D scanner EinScan Pro 2X 2020

    The updated model has improved the main characteristics, added new 3D scanning algorithms. Thus, Einscan Pro 2x 2020 has become a more affordable version of Einscan Pro HD, retaining the advantages and features of the old model.

    The main improvements of the new model:

    • A new 3D scanning principle in HD handheld mode, which allows you to scan without using markers (as Einscan Pro HD does). The old model could not scan without markers in this mode. The quality and detail of scans have also been improved.
    • Higher scanning accuracy in manual HD mode, improved volumetric accuracy for scanning large objects
    • Higher scanning speed in manual HD mode
    • Increased 3D scanning area hybrid alignment. This expands scanning capabilities and efficiency in a wider range of tasks and areas.

    Einscan Pro 2x 2020 is compact and lightweight, you can take it anywhere with you. It has a comfortable grip and is light weight, and if you need HD mode accuracy, put the scanner on a tripod. The scanner is connected via USB 3.0 to a computer or laptop.

    The latest developments in data capture and optimized algorithms make the Einscan Pro 2x 2020 3D Scanner a true breakthrough with a scanning speed of up to 1,500,000 points per second (at 30 frames per second) in manual scanning mode.

    If you need to expand the functionality of the scanner, Shining 3D offers several options:

    • Color Pack 3D scanning module - an additional camera that allows you to scan with color and texture;
    • Industrial Pack - turntable and tripod. Suitable for high quality scanning of small objects in the studio.

    Transcan C

    3D Scanner

    The professional-grade Transcan C 3D Scanner is capable of capturing “superiorly” accurate, high-resolution scans of small to medium objects thanks to two 12-megapixel color cameras with adjustable scan range and multi-level switching permits within a single project.

    The 3D scanner has a sliding design that allows you to easily switch the scanning range between 150mm x 96mm and 300mm x 190mm to suit different sizes of objects. The multi-resolution fusion algorithm allows you to mix high, medium and low resolutions in the same project, making the scanner much more efficient, and its two cameras can capture a 24-bit color map for detailed 3D color data.

    The

    Transcan C features a structured light scanning mode with an automatic turntable that, in combination with the scanning software's stitching algorithm, allows “efficient 3D model acquisition without manual intervention.

    What other indicators do you need to understand in order to choose what you need? - ease of setup and others. Of course, the properties are considered in a complex: the most important parameter is considered as the basic one, the rest are considered as auxiliary, but at the same time mandatory.

    3D Scan Accuracy

    The degree to which the copy matches the original is perhaps the most important indicator. The technical characteristics of scanners indicate the maximum allowable deviation of the scan size from the real object. The smaller the number, the more accurate the 3D scan will be. But the deviation in reality can be greater, since it is quite difficult to create ideal conditions for the device to work, the result is affected by:

    • characteristics of the object;
    • user qualification;
    • scanner settings.

    The use of professional 3D scanners in metrology

    3D scanners handle the process of measuring the dimensions and shapes of models in a matter of minutes, unlike traditional coordinate measuring machines. The non-contact mode of operation makes it possible to scan surfaces of complex shapes (internal corners and edges), recesses and other hard-to-reach places.

    After receiving all the necessary data, they are transferred to the computer for processing. The program performs a comparison of indicators in order to identify deviations - a mismatch in shape and size, the presence of chips, cracks and other deformations caused by mechanical stress or corrosion processes.

    Innovatively adapted blue laser 3D scanning technology

    For metrology purposes for scanning a small object, we recommend the OptimScan-5M, 3M and AutoScan Inspec Scanner-Inspector. All these devices to some extent belong to the same price niche, are multi-tasking, make it possible to obtain high-quality digital 3D models for comparison with reference samples, demonstrating:

    • the highest accuracy;
    • the ability to upload scans to processing programs;
    • compatible with CAD/CAM technologies;
    • work with objects of various sizes and shapes, including those with complex geometry;
    • texture tracking and color imaging.

    Professional, they are also industrial, 3D scanners help to perform the following tasks:

    • reverse engineering;
    • ultra-precise 3D quality control;
    • implementation of intermediate stages of the technological chain of additive manufacturing;
    • faster prototyping and other operations.

    3D scanning in mechanical engineering

    The integration of 3D scanning technologies into production processes gives undoubted preferences. Properties of modern industrial devices:

    • high speed;
    • ultra-precise measurement and digital copy saving;
    • processing of objects regardless of the size and complexity of the form;
    • possibility of integration into automated production systems.

    With the help of 3D scanners and specialized software, numerous processes can be performed:

    • reverse engineering, or reverse engineering;
    • metrological control;
    • test measurements of geometrical parameters for the purpose of quality control and detection of defects;
    • creation of archives of digital models.

    Reverse engineering

    Reverse engineering of complex shapes is one of the areas of industrial engineering. A physical sample is converted into a digital copy using a 3D scanner. The resulting polygonal model is converted into a CAD format. The digital copy is modified and modified to achieve the specified parameters. Unlike traditional design, work takes many times less working time. The finished object becomes the basis for mass production.

    Quality control

    Metrological 3D scanners make it possible to obtain a point cloud of the test sample, on the basis of which an ultra-precise 3D model of the part is formed. It is compared with a digital copy of a reference sample or with an existing CAD model.

    Benefits of 3D quality control:

    • Absolutely accurate data for reference comparison;
    • measurement of millions of surface points;
    • high speed operation;
    • possibility of automatic operation.

    The obtained data can be used for reverse engineering.

    Scanners from the metrological category are recommended for quality control.

    FreeScan UE

    Shining 3D Handheld Laser Scanner FreeScan UE is the latest addition to the FreeScan high performance 3D scanner line. The device uses the patented blue laser technology and features high accuracy and stable repeatability.

    Sunny Wong, product manager of Shining 3D, states: “Innovative adaptation of blue laser 3D scanning technology, high precision and stable repeatability, and easy and convenient operation of hardware and software, enable FreeScan UE to efficiently and accurately upgrade digital workflows in engineering and inspection tasks”.

    The metrology-grade FreeScan UE system delivers 0.02 mm accuracy and 0.02 mm + 0.04 mm/m volumetric accuracy. With a maximum scan area of ​​510 x 520mm, users get a field of view suitable for large-scale reverse engineering projects.

    AutoScan Inspec High Accuracy Stationary 3D Scanner AutoScan Inspec
    • user friendly interface;
    • the accuracy of the 3D model reaches the metrological level with an error of 10 µm;
    • the device can be used for non-contact measurement and quality control;
    • the process is fully automated.

    Works with native software developed by SHINING 3D programmers for industrial applications.

    OptimScan-5M 3D metrological scanner

    OptimScan-5M

    The professional 3D metrological scanner OptimScan-5M shows the best consumer characteristics required just for 3D inspection:

    • accuracy - 15 microns;
    • two 5-megapixel cameras;
    • high processing speed;
    • blue light scanning technology.

    Desktop AutoScan Inspec is a two-in-one scanner-inspector that works in automatic mode. The scanner performs 3D scanning with the highest precision and 3D inspection of objects. This is one of the best devices for working with parts of complex shape and the smallest elements:

    Solutions for dentistry

    In dental orthopedics, 3D scanners - intraoral and dental - have become indispensable assistants for orthopedists and dental laboratory specialists. The former are used to create digital impressions and then produce perfectly fitted dentures, crowns, veneers and other dental restorations using a 3D model using CAD/CAM technology. The second digitizes plaster casts or abutments with tiny elements.

    Aoralscan 3

    The Aoralscan 3 is a compact, powerful device with simple, user-friendly controls and an updated algorithm:

    • Light weight, only 240g;
    • Fast 3D scan, 25 sec single jaw, 1 min full arch;
    • 2 tip sizes, suitable for adults and children;
    • AI Scan - speed up the scanning process;
    • Powerful software, ortho modeling and oral health report.

    AutoScan-DS-MIX 3D Dental Scanner

    AutoScan-DS-MIX

    AutoScan-DS-MIX is an exceptional performance dental scanner with two 5 megapixel cameras and advanced blue light 3D scanning technology :

    • processing speed of one jaw - 13 seconds;
    • high accuracy - 7 µm;
    • data export to virtual articulator;
    • the ability to work with non-separable objects;
    • own fully Russified Dental Scan software compatible with most CAD/CAM solutions.

    SHINING 3D's 3D modeling and additive manufacturing products make it easy to find the right equipment for solving tasks in industry, medicine, education and everyday life.

    Range Vision Pro - an overview of a Russian-made 3D scanner

    RangeVision Pro 3D scanner is an industrial-grade Russian-made equipment that is certified by Rosstandart as a measuring tool.

    Principle of operation - structured light technology, which consists in throwing a mask onto a scanned object using a projector, cameras fixing the curvature of the mask, and reconstructing the scanned surface.

    This 3D scanner can be used in various fields:

    - reverse engineering

    - metrological control of products

    - art / architectural field

    - education

    allowing for high detail when scanning, both miniature models and large ones, for example, a car.

    Specifications

    Scan area

    L

    M

    S

    Scan area (WxHxD), mm

    550 x 340 x 360

    320 x 210 x 200

    140 x 90 x 80

    3D point accuracy, mm

    0. 06

    0.03

    0.018

    3D resolution, mm

    0.18

    0.10

    0.04

    Working distance, mm

    900

    520

    350

    Cameras

    6 MP

    Projector resolution

    Full HD

    Dimensions, mm

    408 x 350 x 125

    Output data format

    STL, OBJ, PLY

    How it works

    Structured backlight

    Scanner module weight

    6. 5 kg

    Food

    100 - 230 V

    RangeVision Pro

    Standard includes:

    • Dual Vision Scanning Module with LED Projector
    • Interchangeable optics (for each scanning area) - 3 pcs.
    • Plastic case with cradle for storage and transport
    • Tripod
    • Digital license key
    • Self-adhesive marker set, 2 sheets A4
    • Mattifying spray, 1 pc.
    • Control computer
    • Computer and network cable set
    • Automatic turntable TL - maximum load 60 kg, platform diameter 32 cm

    Contents

    Wiring kit

    Control computer

    Control computer has the following configuration:

    - Mini-PC, SSD2 GB0, Win6 Core™ i7 pre-installed software RangeVision ScanCenter NG.

    - Input, output devices, cables, etc. are not included in the delivery

    station.

    Software

    RangeVision Pro comes with the free ScanCenter NG 3D scanning and post-processing software that allows you to scan an object using a turntable, using marks and in free mode. The obtained data can be used in various CAD programs and editors: Solidworks, Autocad, Geomagic Control X, Geomagic Design X and others.

    Preparing the RangeVision Pro 3D scanner for operation

    First, the scanner is mounted on a tripod, connected to a computer, and the scanning area is determined (one of three is selected based on the dimensions of the object being scanned).

    Scanner mounted on a tripod

    Scanner with front cover removed

    Protective caps are removed from the cameras and the projector, and the selected lenses are screwed onto the cameras.

    Attaching lenses to cameras

    For more accurate scanning of shiny surfaces, the scanner has a blue light scanning function. To use this function, special light filters are installed on the cameras.

    Installing filters on cameras

    Calibrating the RangeVision Pro 3D Scanner

    The 3D scanner needs to be calibrated upon initial startup or after changing lenses. It consists in several successive shots of the calibration panel according to a given algorithm. To do this, in accordance with the selected scanning area, the necessary calibration panel is installed, which is included in the kit, and the calibration procedure is started in the scanner software. Further, the program suggests the necessary steps for setting up the 3D scanner for calibration and the algorithm for positioning the calibration panel for images.

    The software prompts the following actions in sequence during calibration:

    - selection of the scanning area

    - installation of the calibration plate

    - reminds you to install the appropriate lenses

    - adjustment of the distance to the calibration plate

    - adjustment of image sharpness

    - projector focus

    - the required position of the calibration plate for pictures.

    After calibration is complete, the 3D scanner is ready for use.

    3D Scanning with Turntable

    Scanning small objects is convenient and fast with the included turntable. The object to be scanned is placed on the turntable, the scanning parameters are set, the number of scans per revolution is set, and the automatic process of turning the table to the set angle is started. The resulting images are automatically stitched into a common surface.

    Extra points (part of the table, noise, etc.) are removed manually by the operator.

    After scanning, the object is turned over and the scanning procedure is started again to obtain the surface of the object from the reverse side.

    The resulting surfaces on both sides of the scan object are combined into a single model by selecting common points on the model. Next, the software first roughly aligns the surfaces, and then the operator, by setting the settings, more accurately aligns with filling voids if necessary. The resulting model can then be used for both reverse engineering and geometry control.

    Metrological verification of the 3D scanner Rangevision Pro

    to use the 3D scanner Rangevision Pro as a metrological measuring tool, it is required to verify it, which consists in the geometry of a special control measure. After a successful verification, a verification certificate is issued for a period of 1 year. Further receipt of a new certificate requires a new verification.

    Control measures are not included in the scope of delivery and verification is carried out by specialized companies. Our company has this measure and performs verification of RangeVision Pro 3D scanners.

    The verification procedure is shown in the figures below.

    If you have any questions or want to come to a demonstration of equipment, please contact our technologist by phone 8 904 210 25 54, email project@rt-ecat.


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