The 3DMakerpro Mole 3D Scanner receives a positive review for being a versatile and affordable entry point to 3D scanning.

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3D Printing Industry recently had the opportunity to review the 3DMakerpro Mole, a handheld 3D scanner that utilizes near-infrared (NIR) structured light to capture detailed 3D models of medium-sized objects. Manufactured by 3DMakerpro, a Chinese company known for their portable 3D scanning solutions, the Mole aims to be affordable, portable, and user-friendly.

One of the main benefits of the Mole 3D scanner is its affordability without compromising performance. The NIR structured light technology allows for realistic and detailed 3D scans, even of black objects, making it a versatile option. Additionally, the lack of size limitation, thanks to its handheld form factor, further adds to its appeal.

3DMakerpro has integrated an AI-based visual tracking algorithm into the Mole’s software, eliminating the need for markers and enhancing its flexibility. Coupled with the accompanying user-friendly JMStudio software, the Mole 3D scanner becomes highly accessible, enabling users without prior experience or technical skills to create their own 3D models.

Designed for hobbyists, designers, educators, and artists, the Mole 3D scanner offers high-performance scanning at an affordable price. But does it truly live up to its claims?

In terms of hardware and packaging, the Mole 3D scanner comes in a sturdy, padded carry case that includes the scanner itself, a turntable, a tripod, a USB stick, and all the necessary cables and adapters. The case offers excellent protection and ease of transport.

In terms of scanning capabilities, the Mole excels in accuracy and resolution, with a scan accuracy of 0.05 mm and a resolution of 0.1 mm. Its ability to capture black objects is also a standout feature, as these are typically challenging for other scanners to handle.

The setup process for the Mole 3D scanner is straightforward, with clear instructions provided in the included manual. The lack of manual calibration or markers is a significant advantage. However, it raises concerns about the scanner’s ability to remain calibrated in the long run, as there is no option for re-calibration.

The JMStudio software accompanying the Mole 3D scanner is highly intuitive and user-friendly, guiding users through the entire scanning and post-processing workflow. It offers different modes and settings to accommodate various scanning scenarios, and a useful distance indicator ensures optimal scanning distance from the object.

Two scanning modes are available with the Mole 3D scanner: table scan and easy scan. Table scan mode requires the object to be placed on the turntable, while easy scan mode allows for more flexibility in scanning angles.

In conclusion, the 3DMakerpro Mole 3D scanner is a compelling option for those seeking affordable, high-performance 3D scanning capabilities. With its robust feature set, ease of use, and AI-powered software, the Mole is suitable for a wide range of users, from hobbyists to professionals. However, the lack of manual calibration options may raise concerns about the scanner’s long-term calibration stability.

Introducing the Mole 3D scanner, a powerful tool that offers both easy scan mode and tripod mode for optimal object scanning. This scanner is equipped with remarkable accuracy and resolution at an affordable price range. Its ability to capture shape, color, and texture with incredible detail and realism is truly impressive. Even dark objects pose no problem for the Mole 3D scanner, thanks to its NIR technology. The resulting 3D scans are clean, smooth, and virtually free from any noise or artifacts.

One of the standout features of this scanner is its AI visual tracking algorithm, which eliminates the need for markers and marker setup during scanning. This saves users time and effort, while still delivering accurate results. Once the scanning process is complete, users can view and edit their scans directly in the JMStudio software. The software offers two alignment modes: automatic and manual. While the automatic mode works well for most scans, more complex objects may require manual alignment for optimal results.

Exporting scans is a breeze with the Mole 3D scanner, as it supports various formats such as OBJ, STL, and PLY. Additionally, users can preview their scans in 3D before exporting them. This feature allows for a thorough evaluation of the scanned object, ensuring that it meets the desired specifications.

To put the Mole 3D scanner to the test, our team at 3D Printing Industry conducted over 100 hours of rigorous testing, simulating real-world scenarios and applications. We scanned a wide range of objects, from mechanical parts to model buildings, to evaluate the scanner’s performance and capabilities.

One of the key findings from our testing was the scanner’s ability to handle complex objects with rough surface textures and non-symmetrical geometry. The Mole 3D scanner excelled in capturing the intricate details and geometry of these objects. The lack of symmetry actually aided in the automatic alignment process, resulting in seamless 3D models.

Additionally, we tested the scanner’s efficiency in digitizing everyday objects. We selected a pair of pliers and a plug adapter to scan, and the Mole 3D scanner effortlessly transformed these objects into 3D models. This highlights the scanner’s user-friendly interface and its suitability for diverse applications such as reverse engineering, 3D modeling, and product design.

In conclusion, the Mole 3D scanner offers impressive capabilities at an affordable price point. Its accuracy, resolution, and ability to handle complex objects make it a valuable tool for various industries. Whether you’re a professional in need of high-quality scans or an enthusiast looking to explore the world of 3D scanning, the Mole 3D scanner is definitely worth considering.

challenged by its cylindrical shape and lack of distinctive features. Overall, the Mole 3D scanner handled dark objects better than expected.

Next, we wanted to see how well the scanner could capture objects with intricate details and repeating features. For this test, we selected a hole saw and a model of the Florence Cathedral. The hole saw 3D scan did not process well, as the software converted the point cloud data into .stl format, resulting in loss of sharpness and detail. The teeth of the hole saw became rounded and the holes on the bottom closed up. Unfortunately, the software did not provide settings to minimize this loss of quality.

The Florence Cathedral proved to be a difficult challenge for the Mole 3D scanner. The repeating features on the model led to tracking issues and difficulties in capturing the tower section. We had to use makeshift markers as recommended by customer support to overcome these challenges. While the addition of markers helped us successfully scan the cathedral, it also resulted in a loss of detail in the areas where the markers were placed. Additionally, the final 3D scan had some artifacts from merging, such as duplicated roofs. This indicates that the scanner may struggle with picking up intricate details and models with repeating features due to its AI visual tracking algorithm.

Lastly, we wanted to test the scanner’s ability to scan dark objects, which are known to be challenging for 3D scanners due to their high light absorption. We prepared a series of parts and models 3D printed with black filament. The Mole 3D scanner performed surprisingly well in this test, capturing a lot of detail and geometry on the 3D printed hand and the 3DPI test tile. The only significant issue we had was with the black pipe mount, which we believe was due to difficulties in aligning it properly.

In conclusion, the Mole 3D scanner struggled with glossy metallic surfaces, resulting in the need for additional measures such as texture spray to successfully scan certain objects. It also faced challenges in preserving small details and sharp geometry, with the software converting point cloud data into mesh format leading to loss of quality. The scanner had difficulties with intricate details and models with repeating features, indicating limitations in its AI visual tracking algorithm. However, it performed surprisingly well in scanning dark objects, capturing a lot of detail and geometry, with only minor issues in aligning certain objects.

Unleashing the Potential of the Mole 3D Scanner

In our quest for finding an affordable yet capable entry-level 3D scanner, we came across the 3DMakerpro Mole. Intrigued by its features and promising performance, we decided to put it to the test. And now, we’re here to share our experience and findings with you.

First, let’s dive into the world of texture scanning. The Mole 3D scanner offers a texture scan mode that allows you to create realistic 3D models of textured items. We selected a Polaroid sunglasses case with a woven texture to see how the scanner handles textures and colors. Despite not having the color kit required for capturing full color, the scanner managed to capture the overall shape and texture of the case with impressive detail. The only flaw was the misalignment of the text. However, this showcased how the Mole 3D scanner can be a valuable tool for online retail, capturing textures and colors with the color kit add-on for stunning full-color scans.

Next, we delved into part replication using the Mole 3D scanner. We chose a motorcycle triple clamp with complex geometry and features to test its capabilities in reverse engineering and recreating scanned models through 3D printing. To ensure the best results, we used texture spray on the part’s shiny metallic surface. The 3D scans turned out exceptionally well, with the Mole capturing the geometry accurately and maintaining a high level of detail after processing the point cloud. When we compared the 3D printed model to the original motorbike part, we found that it was a near-perfect match, both visually and dimensionally. These results solidify the Mole’s potential in professional settings for reverse engineering and replication.

Overall, our testing experience with the 3DMakerpro Mole 3D scanner has been mostly positive. It impressively handles complex geometries and consistently captures black objects. The scanning process is made easy and straightforward with JMStudio’s user-friendly interface. However, a few flaws do hold the Mole back from reaching its full potential.

One limitation lies in the software performance and tracking issues. While the auto-align feature works well most of the time, there are instances where it falters, requiring manual alignment. Additionally, the AI visual algorithm, which allows for markerless scanning, can sometimes struggle on certain models, resulting in tracking loss and the need to restart the scan. These issues could be addressed to improve the overall appeal of the Mole 3D scanner.

Another area for improvement is the point cloud processing and mesh post-processing options in JMStudio. While it is easy to use and navigate, advanced users may find themselves craving more advanced options for fine-tuning their models.

Despite these shortcomings, the 3DMakerpro Mole remains a capable entry-level 3D scanner for hobbyists, makers, and educators, offering competitive pricing and impressive accuracy. It has the potential to be a top pick, given some optimization and fine-tuning in its software and tracking capabilities.

Here are the technical specifications for the 3DMakerpro Mole:

– Accuracy: 0.05mm

– Resolution: 0.1mm

– Frame rate: 10fps

– Tracking mode: Visual tracking

– Work distance: 150-400mm

– Single capture range: 200x100mm

– Typical object sizes: 15-1500mm

– Output format: OBJ/STL/PLY

– Compatible systems: Windows 10/11 64 bit, MacOS 12/13

– Compatible mobile: Android 10.0 or later, iOS 15.0 or later

– Minimum computer requirements: Intel Core i5 8th, 16GB RAM, MX250 GPU with 2GB

In conclusion, the 3DMakerpro Mole 3D scanner holds great promise as an entry-level option. With some improvements, it could become a top contender in its price range. Whether you’re a hobbyist, maker, or educator, this scanner offers the potential to unlock your creativity and bring your ideas to life in the world of 3D scanning and printing.

The Mole 3D Scanner is an impressive piece of technology that is revolutionizing the world of 3D printing. With its advanced features and high-performance capabilities, it is quickly becoming the go-to choice for professionals in the additive manufacturing industry.

One of the standout features of the Mole 3D Scanner is its VRAM. With a recommended computer requirement of an Intel Core i7 8th generation processor and 16GB RAM, it is able to handle complex scans and process them quickly and efficiently. The NVIDIA 1060 GPU with 4GB VRAM ensures that the scanner is able to render high-quality graphics and create detailed 3D models.

In addition to its powerful computing capabilities, the Mole 3D Scanner also boasts a light source that utilizes NIR technology. This light source enables the scanner to capture accurate color textures, resulting in highly realistic and detailed scans.

Another notable feature of the Mole 3D Scanner is its extended support. With the ability to connect via a USB 2.0 interface, it is compatible with a wide range of devices, making it versatile and easy to use. Its compact dimensions of 141x80x80mm and lightweight design of 390g also ensure that it is portable and can be taken on-the-go.

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If you are interested in working in the additive manufacturing industry, visit 3D Printing Jobs to explore a selection of available roles and start your career in this exciting field.

The featured image showcases the Mole 3D Scanner in all its glory. Photo by 3D Printing Industry.

In conclusion, the Mole 3D Scanner is a game-changer in the world of 3D printing. Its impressive VRAM, advanced light source, extended support, and compact design make it a top choice for professionals in the additive manufacturing industry. Stay connected with the latest news and job opportunities by subscribing to the 3D Printing Industry newsletter and following them on social media.

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