Explanation video Product List and Ranking from 5 Manufacturers, Suppliers and Companies

Last Updated：Jan 14, 2026 Aggregation Period:Dec 17, 2025～Jan 13, 2026
This ranking is based on the number of page views on our site.

Explanation video Manufacturer, Suppliers and Company Rankings

Last Updated：Jan 14, 2026 Aggregation Period:Dec 17, 2025～Jan 13, 2026
This ranking is based on the number of page views on our site.

松井製作所 Osaka//Ferrous/Non-ferrous metals
アイサンテクノロジー Aichi//software
ジャパンエレグロスモズシリーズ本店 Osaka//Other manufacturing
4 プレゼンス Kanagawa//others
4 エルモ Osaka//Service Industry

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Explanation video Product ranking

Last Updated：Jan 14, 2026 Aggregation Period:Dec 17, 2025～Jan 13, 2026
This ranking is based on the number of page views on our site.

What is flatness for machine manufacturing? A basic explanation in 5 minutes! 松井製作所
Effective Use of Registration Information Data (Registration Books and Raster Maps) | Function Explanation Video アイサンテクノロジー
Video explanation of NC lathe programs for semiconductor manufacturing equipment. 松井製作所
[For Machine Manufacturing] Geometric Tolerances: Basic Explanation of Inclination 松井製作所
4 [For Precision Instruments] Geometric Tolerances: Circular Runout and Total Runout Basic Explanation 松井製作所

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Explaining the basics of parallelism for machine tools!

Explanation of the geometric tolerance "parallelism" for improving machining accuracy!

In the machine tool industry, the machining accuracy that affects product quality is extremely important. In particular, if the parallelism of parts is not properly maintained, it can lead to assembly defects and performance degradation. This video explains the basics of "parallelism," which is a type of geometric tolerance. 【Application Scenarios】 * Design and manufacturing of machine tools * Engineers aiming to improve machining accuracy * Skill enhancement in reading drawings 【Benefits of Introduction】 * Understanding the definition and importance of parallelism * Learning how to interpret parallelism on drawings * Contributing to the improvement of machining accuracy

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Explaining the Basics of Parallelism for 3D Printers!

To improve the printing accuracy of 3D printers!

In the 3D printing industry, the accuracy of the printed objects greatly affects the quality of the products. Particularly in additive manufacturing, precise alignment of each layer is crucial, and understanding parallelism is essential. If parallelism is not properly managed, distortions and dimensional errors in the printed objects can occur, potentially negatively impacting the functionality and appearance of the products. This video explains the basics of "parallelism," a type of geometric tolerance. It covers the definition of parallelism, examples of its use, how it is represented in drawings, and points to consider when using it. Please use this video as a reference to improve the printing accuracy of your 3D printer. [Usage Scenarios] - When creating prototypes with a 3D printer - When manufacturing precise parts with a 3D printer - When conducting quality control of printed objects [Benefits of Implementation] - Improved accuracy of printed objects - Reduction of defective products - Realization of printed objects as per design specifications

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[For Machine Manufacturing] Geometric Tolerances: Basic Explanation of Inclination

A clear explanation of the basics of slope in a video!

In the mechanical manufacturing industry, a precise understanding of geometric tolerances on drawings is essential to ensure product quality and accuracy. In particular, the slope significantly affects the assembly and functionality of parts, making it important to understand its definition, usage, and points of caution. An inaccurate understanding can lead to incorrect manufacturing of parts or assembly failures. This video explains the basics of "slope," a type of geometric tolerance. 【Application Scenarios】 - Design and manufacturing of mechanical components - Reading drawings in quality control - Technical education on the manufacturing floor 【Benefits of Introduction】 - Improved drawing comprehension - Reduction of manufacturing errors - Increased customer satisfaction through enhanced quality

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[For Molds] Geometric Tolerances Inclination Basic Explanation Video

To improve the precision of mold design and manufacturing!

In the mold industry, the dimensional accuracy of products greatly affects quality. In particular, even a slight deviation in the angle of inclination can lead to molding defects or a decrease in product accuracy. This video explains the basics of "inclination," a type of geometric tolerance. By understanding the definition of inclination, examples of its use, how it is represented in drawings, and points to consider when using it, you can help solve challenges in mold design. This video will be a very effective resource for those aiming to improve accuracy in mold design. 【Usage Scenarios】 - I want to deepen my understanding of inclination in mold design. - I aim to improve the accuracy of molded products. - I want to learn how to interpret inclination indications in drawings. 【Benefits of Introduction】 - Improvement in the quality of mold design. - Reduction of molding defects. - Stabilization of product accuracy.

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Basic Explanation of Geometric Tolerances for Precision Measurement: Inclination

Contributing to the efficiency of inspection operations!

In the field of precision measurement, it is important to confirm whether the product has the shape specified in the drawings to ensure quality. In particular, the slope significantly affects the product's functionality and assembly, requiring accurate understanding and measurement. Understanding the definition and measurement methods of slope is essential for improving inspection accuracy. This video explains the basics of "slope," a type of geometric tolerance, and supports the efficiency of inspection operations. 【Usage Scenarios】 - Product quality management - Streamlining inspection processes - Enhancing drawing interpretation skills 【Benefits of Implementation】 - Deepens understanding of slope and improves inspection accuracy - Enhances drawing interpretation skills, contributing to reduced inspection time - Promotes standardization of inspection operations

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[Aerospace] Geometric Tolerances: Concentricity and Coaxiality Basic Explanation

Explaining the fundamentals of design in the aerospace field!

In the aerospace industry, there is a demand for lightweight products and high precision. Understanding concentricity and coaxiality in component design is essential for achieving both weight reduction and quality. By properly understanding these geometric tolerances and reflecting them in drawings, we can reduce waste in components and improve the overall performance of the product. This video will explain the definitions of concentricity and coaxiality, examples of their use, how they are applied in drawings, and points to note when using them. This video will serve as a resource for designers and engineers in the aerospace field to deepen their foundational knowledge of design and conduct more efficient designs. [Application Scenarios] - Component design for aircraft and spacecraft - Design focused on weight reduction - High-precision component manufacturing [Effects of Introduction] - Improvement in design quality - Weight reduction of components - Reduction in manufacturing costs

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【For the Energy Industry】Explanation Video on Concentricity and Coaxiality

Contributing to the improvement of the quality of energy-related components!

In the energy industry, stable operation of equipment and efficient energy use are required. Particularly for rotating machinery such as generators and transmission equipment, precise positioning of components is crucial. Poor concentricity and coaxiality can lead to vibrations and friction, potentially resulting in equipment failure and decreased energy efficiency. This video explains the basics of "concentricity and coaxiality," which are types of geometric tolerances. 【Application Scenarios】 - Manufacturing of generators and turbines - Assembly of pumps and compressors - Maintenance of energy-related equipment 【Benefits of Implementation】 - Improved component quality - Stable operation of equipment - Enhanced energy efficiency

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Positioning Explanation Video for Medical Devices

A clear explanation of the basics of positional degree!

In the medical device industry, precise dimensions and positional accuracy of components are crucial to ensure product safety. Especially in medical devices that involve human lives, even slight misalignments of parts can lead to malfunctions or performance degradation, potentially resulting in serious accidents. This video explains the basics of "position tolerance," a type of geometric tolerance, and contributes to enhancing safety in the design and manufacturing of medical devices. By deepening the understanding of the definition of position tolerance, examples of its use, how it is represented in drawings, and precautions for its application, we aim to strengthen quality management during the design and manufacturing stages and support the development of safer medical devices. 【Application Scenarios】 - Creating drawings during the design phase of medical devices - Quality control in manufacturing settings - Incoming inspection of components 【Benefits of Implementation】 - Deepening understanding of position tolerance and improving quality in design and manufacturing - Enhancing the safety of medical devices - Reducing defective products and cutting costs

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Positioning Accuracy Explanation Video for Electronic Devices

"What is positional degree?" I will answer that!

In the electronics industry, as products become smaller, the precision of components becomes crucial. Understanding positional tolerance enables the accurate placement of parts during the design phase, contributing to product miniaturization and improved reliability. Misunderstanding positional tolerance can lead to assembly defects and decreased product performance. This video explains the basics of positional tolerance and supports problem-solving in the design and manufacturing of electronic devices. 【Application Scenarios】 - Design of electronic devices - Manufacturing of components - Quality control 【Benefits of Implementation】 - Deepen understanding of positional tolerance and improve design accuracy - Contribute to product miniaturization and enhanced reliability - Reduce quality issues in the manufacturing process

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Basic Explanation of Geometric Tolerances for Symmetry in the Automotive Industry

Contributing to the improvement of precision in automotive parts!

In the automotive industry, high precision is required to ensure the quality and performance of parts. This is especially true for critical components such as engines and transmissions, where a precise understanding of symmetry and appropriate instructions are essential. Misinterpretation or incorrect instructions regarding symmetry can lead to functional failures or performance degradation of parts. This video explains the basics of "symmetry," a type of geometric tolerance, and supports problem-solving in the design and manufacturing of automotive parts. It covers the definition of symmetry, examples of use, how it is represented in drawings, and points to note when using it. [Application Scenarios] - Design of automotive parts - Quality control in manufacturing - Training for engineers [Benefits of Implementation] - Improvement in part quality - Reduction of design errors - Skill enhancement for engineers

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[For Precision Machinery] Geometric Tolerance Symmetry Basic Explanation Video

Learn the basics of symmetry and apply them to quality control!

In the precision machinery industry, understanding geometric tolerances on drawings is essential for ensuring product accuracy. In particular, understanding symmetry is crucial for the precise positioning and assembly of parts, directly impacting the performance and reliability of the product. Misunderstanding symmetry can lead to defective parts or assembly errors, potentially compromising the quality of the final product. This video explains the basics of "symmetry," a type of geometric tolerance. It covers the definition of symmetry, examples of its use, how it is represented on drawings, and points to consider when using it, addressing the challenges faced by quality management personnel. 【Application Scenarios】 - Quality management in the manufacturing of precision machine parts - Improvement of drawing interpretation skills - Management of product accuracy 【Benefits of Introduction】 - Deepens understanding of symmetry and enhances drawing interpretation abilities. - Contributes to improved product quality. - Leads to a reduction in defective products.

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【For Machine Tools】Geometric Tolerance Symmetry Basic Explanation Video

Explaining the basics of symmetry! It is useful for high-precision machining.

In the machine tool industry, high-precision parts processing is required. Particularly when micron-level precision is demanded, understanding symmetry is essential. If symmetry is not properly indicated, it can lead to assembly defects and performance degradation. This video explains the basics of "symmetry," which is a type of geometric tolerance. [Usage Scenarios] - Sites engaged in high-precision parts processing - Engineers who want to interpret drawings and provide appropriate indications - Those who want to learn the definition and usage of symmetry [Benefits of Introduction] - Deepens understanding of symmetry and improves drawing interpretation skills - Contributes to achieving high-precision parts processing - Enhances quality and reduces defect rates

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Basic explanatory video on geometric tolerances for electronic devices: symmetry.

Helpful for designing electronic devices! An explanation of the basics of symmetry.

In the electronics industry, there is a demand for miniaturization and high precision of products. Understanding geometric tolerances at the design stage is essential for ensuring product quality and reliability. In particular, understanding symmetry is important for optimizing the arrangement and functionality of components. Improper tolerance settings can lead to decreased product performance and manufacturing issues. This video explains the basics of "symmetry," a type of geometric tolerance. 【Application Scenarios】 - Design of electronic devices - Creation of component drawings - Quality control 【Benefits of Implementation】 - Reduction of design errors - Improvement of product quality - Reduction of manufacturing costs

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[For Medical Devices] Geometric Tolerance Circumferential Runout and Total Runout Explanation Video

Explaining the basics of geometric tolerances in the design and manufacturing of medical devices!

In the medical device industry, precise dimensions and shapes of components are required to ensure product safety. Particularly in medical devices that demand precise operation, even slight deviations in component dimensions can lead to malfunctions of the device or pose risks to patients. Understanding geometric tolerances, especially circular runout and total runout, is essential for ensuring quality during the design phase. This video will explain the definitions of circular runout and total runout, examples of their use, how they are represented in drawings, and precautions for their use. This will enable designers to create safer and more reliable medical devices. [Application Scenarios] - Design of medical devices - Manufacturing of medical devices - Quality control [Effects of Implementation] - Improvement in design quality - Reduction in defect rates during manufacturing processes - Enhancement of product safety

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[For Molds] Geometric Tolerance Circumferential Runout and Total Runout Explanation Video

Explaining the basic knowledge of geometric tolerances useful for mold design and manufacturing!

In the mold industry, dimensional accuracy is crucial to ensure product quality and durability. Particularly, understanding geometric tolerances is essential to prevent wear and deformation of molds. Improper management of circular runout and total runout can lead to early deterioration of molds and a decrease in product accuracy. This video explains the basics of "circular runout and total runout," which are types of geometric tolerances. 【Usage Scenarios】 - Mold design phase - Mold manufacturing process - Mold quality control 【Benefits of Introduction】 - Improvement in quality during mold design and manufacturing - Increased durability of molds - Reduction of defective products

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