Software Specifications for the device
Specification | Details |
---|---|
Image Store | Yes |
3D Data Preview | Yes |
Output Files | STL, PLY, PTY |
Cloud Service | Yes |
Cloud Service Price | 5GB free |
AI Technology | Auto tissue remove, overlapping, correct, etc. |
Software License | Free |
Software Upgrade | Free |
API | Available |
Scanning Feedback | Music |
PC Requirements | – |
OS | Windows 10*64 bit |
CPU | Intel Core i7-10870H, Intel Core i7-10875H, Intel Core i7-11800H |
GPU | GTX 1660 TI, RTX 2060, RTX 3060 |
RAM | 16G or 32G |
ROM | Recommend 512G SSD or above |
Interface | USB 3.0 |
This table includes all the software and hardware specifications required to run the device effectively, including details about AI technology and cloud services.
scanner intra oral Safety Certifications
Intraoral scanners, essential tools in modern dentistry for creating digital impressions of patients’ oral cavity, must comply with safety certifications to ensure they are safe for both patients and dental professionals. The following are key safety certifications and standards commonly associated with intraoral scanners:
1. FDA Clearance (USA): Intraoral scanners must be cleared by the U.S. Food and Drug Administration (FDA). This clearance signifies that the device is safe and effective for its intended use. It often follows stringent review processes.
2. CE Marking (European Union): The CE Mark indicates that an intraoral scanner complies with EU safety, health, and environmental requirements. It’s mandatory for devices sold within the European Economic Area (EEA).
3. ISO Standards: The International Organization for Standardization (ISO) provides various standards for medical devices, including intraoral scanners. Relevant standards include:
– ISO 13485: Specifies requirements for a comprehensive quality management system for the design and manufacture of medical devices.
– ISO 10993: Ensures the biocompatibility of medical devices, assessing the potential effects on patients’ tissues.
4. IEC 60601-1: This standard pertains to the safety and essential performance of medical electrical equipment. Compliance indicates the device is safe from electrical hazards.
5. RoHS and WEEE Directives: These EU directives ensure intraoral scanners are free from hazardous substances (RoHS) and properly disposed of at the end of their life cycle (WEEE).
6. HIPAA Compliance: In the U.S., compliance with the Health Insurance Portability and Accountability Act (HIPAA) ensures that patients’ digital data captured by intraoral scanners is protected and secure.
Manufacturers often include these certifications in their product literature to reassure healthcare providers and patients of their safety and reliability. Understanding and ensuring these certifications are essential for maintaining the highest standard of dental care through the use of intraoral scanners.
List Reference Technical Parameters of “scanner intra oral”
Certainly! Intraoral scanners (IOS) are advanced devices used in dentistry to capture direct optical impressions. Below are some critical technical parameters:
1. Scanning Technology:
– Triangulation: Uses the angles of reflected light to create a 3D image.
– Confocal Microscopy: Captures focused light from multiple depths for detailed imaging.
– Optical Coherence Tomography (OCT): Uses light waves to create detailed cross-sectional images.
2. Accuracy: Generally expressed in micrometers (µm), signifies the precision of the scan. Higher accuracy ensures better fitting restorations.
3. Resolution: Refers to the detail the scanner can capture, typically in microns (µm). Higher resolution allows for capturing fine details.
4. File Format: Common formats include STL (Standard Tessellation Language), PLY (Polygon File Format), and OBJ (Object File). These files are used in CAD/CAM systems.
5. Field of View (FOV): The scanning area size, usually measured in millimeters (mm). Larger FOV can capture more significant areas without multiple passes.
6. Depth of Field (DOF): The depth within which the scanner can maintain accurate focus, measured in millimeters (mm).
7. Scan Speed: Indicates how quickly data can be captured and processed, usually measured in frames per second (FPS). Faster scanning speed improves workflow efficiency.
8. Light Source: Various types like LED, laser, or structured light are used to illuminate the surface being scanned.
9. Software Compatibility: Ensures the scanner’s software integrates seamlessly with practice management systems and CAD/CAM software.
10. Size and Weight: Affects ergonomics and clinician comfort. Lighter and smaller devices are easier to handle during lengthy procedures.
11. Battery Life/Power Source: Determines how long the scanner can operate without recharging or needing to be plugged in.
12. Wireless Connectivity: Options like Bluetooth or Wi-Fi for data transfer and integration with other dental devices.
13. Color Scanning: Some intraoral scanners can capture color, providing more diagnostic information compared to monochrome images.
Understanding these parameters can aid in selecting the most suitable intraoral scanner for clinical needs, enhancing the accuracy and efficiency of dental practices.
List Product features of “scanner intra oral”
1. Advanced Imaging Accuracy: Employs high-resolution optics and advanced imaging technologies to capture highly detailed 3D images of intraoral structures, allowing for precise diagnostics and treatment planning.
2. Digital Workflow Integration: Seamlessly integrates with digital dental workflows and CAD/CAM systems, facilitating efficient communication with dental laboratories and streamlined digital orthodontics.
3. User-Friendly Interface: Features intuitive software and touchscreen controls for ease of use by dental professionals, enhancing operational efficiency and minimizing learning curves.
4. Wireless Operation: Some models offer wireless connectivity, enabling greater flexibility and ease of movement during scanning procedures.
5. Real-Time Visualization: Provides real-time, high-definition visual feedback during scans, allowing clinicians to immediately assess and verify image captures at the point of care.
6. Color Scanning: Captures natural color tones of teeth and gums, aiding in better visualization and more accurate shade matching for restorative procedures.
7. Ergonomic Design: Designed with ergonomics in mind to reduce hand fatigue during prolonged use and to accommodate both left-handed and right-handed users.
8. Lightweight and Portable: Compact and lightweight design that is easily portable, making it convenient for use in multiple operatories or in mobile dental practices.
9. Fast Scan Speed: High-speed scanning capabilities that reduce chair time and improve patient comfort by minimizing the duration of intraoral procedures.
10. Hygienic and Sterilizable: Features autoclavable scanning tips and easy-to-clean surfaces, ensuring high standards of hygiene and infection control.
11. Patient Comfort: Non-invasive and quick, reducing the discomfort often associated with traditional impression-taking methods.
12. Detailed Analytics: Equipped with software that provides comprehensive analytics and reports, aiding in precise treatment planning and progress tracking.
13. Artificial Intelligence (AI) Integration: Some advanced models incorporate AI to assist in diagnostic procedures, caries detection, and to predict treatment outcomes.
14. Compatibility with Existing Equipment: Designed to be compatible with a wide range of existing dental equipment and software, ensuring easy adoption into current practice setups.
15. Remote Collaboration: Supports remote consultation and collaboration with specialists and labs, enhancing treatment planning efficiency and outcomes.
List Buyer Types of “scanner intra oral”
When it comes to purchasing intraoral scanners, several distinct buyer types can be identified, each with unique needs and motivations:
1. Dental Clinics and Private Practitioners:
– General Dentists: Invest in intraoral scanners to enhance patient care, improve diagnostic accuracy, and streamline workflows.
– Specialists (Orthodontists, Prosthodontists, Periodontists): Utilize these devices for precise treatment planning, aligner fitting, and implant placements.
2. Dental Laboratories:
– Technicians: Seek intraoral scanners to receive digital impressions from dentists instead of traditional physical molds, enabling quicker turnaround and heightened precision in creating dental restorations (crowns, bridges, implants).
3. Educational Institutions:
– Dental Schools and Universities: Incorporate intraoral scanners into curricula to train future dentists on cutting-edge technology and digital dentistry practices.
– Research Institutions: Utilize scanners for various research projects related to dental materials, alignment technologies, and oral health studies.
4. Group Dental Practices and Dental Service Organizations (DSOs):
– Large Practices/DSOs: Purchase multiple units to equip several branches, ensuring standardized, high-quality care across locations and benefiting from bulk purchase discounts.
5. Hospitals and Medical Centers:
– Dental Departments: Require intraoral scanners for comprehensive patient care, especially those integrated with other medical services needing interdisciplinary approaches.
6. Patient Advocacy Groups and NGOs:
– Non-Governmental Organizations (NGOs): Some may acquire these devices to provide dental care in underserved regions, combining advanced technology with outreach programs.
7. Technology Enthusiasts and Early Adopters in Dentistry:
– Innovative Dentists: Keen to stay ahead of the curve, these buyers invest in intraoral scanners to market their practice as a leader in digital dentistry, attracting tech-savvy patients.
Each buyer type recognizes the benefits of intraoral scanners, from improved patient experience to enhanced workflow efficiency, making them a transformative tool in modern dentistry.
scanner intra oral Accessories Upgrades and Custom Manufacturing Options
Intraoral scanners have revolutionized dentistry, offering precise digital impressions that enhance diagnostic accuracy and treatment outcomes. When considering accessories, upgrades, and custom manufacturing options for these devices, several factors can optimize functionality and user experience.
Accessories:
1. Protective Sleeves: Disposable or autoclavable sleeves ensure hygiene and prevent cross-contamination.
2. Scanning Tips: Different sizes and shapes enable access to various areas within the mouth, enhancing versatility.
3. Battery Packs: Extended-use battery packs can maintain functionality during long procedures without constant recharging.
4. Calibration Tools: Regular calibration maintains scanner accuracy, making calibration tools essential.
5. Cart Systems: Mobile carts provide easy transport and safe storage within the practice.
Upgrades:
1. Software Enhancements: Regular updates can improve scanning speed, accuracy, and compatibility with the latest dental CAD software.
2. Higher Resolution Cameras: Upgraded cameras capture more detailed images, aiding in better diagnosis and treatment planning.
3. Faster Processing Units: Enhanced processors reduce lag time, allowing for more efficient workflows and patient turnover.
Custom Manufacturing Options:
1. Tailored Scanning Heads: Custom-shaped heads can cater to unique patient anatomies, improving comfort and scanning accuracy.
2. Ergonomic Handles: Custom-designed handles that fit the dentist’s hand ergonomically can reduce fatigue during long procedures.
3. Branding Opportunities: Clinics can opt for custom branding on scanner devices, reinforcing their professional identity.
Conclusion:
By integrating the right accessories, pursuing strategic upgrades, and considering custom manufacturing options, dental practices can fully leverage the capabilities of intraoral scanners. This not only improves clinical outcomes but also enhances patient and practitioner satisfaction.
List Quality Control and The Manufacturing Process of “scanner intra oral”
Quality Control in Intraoral Scanner Manufacturing
1. Component Verification: Ensuring all parts meet predefined specifications before assembly.
2. Calibration Testing: Precision calibrations are verified using standardized models to ensure dimensional accuracy.
3. Software Validation: Rigorous software testing against clinical scenarios to ensure accuracy and reliability.
4. Environmental Stress Testing: Assessing performance under various conditions such as humidity, temperature, and vibration.
5. Optical Accuracy: Routine checks for the scanner’s optical systems, including lenses and sensors.
6. Functional Testing: Full system tests to ensure the scanner captures detailed, accurate 3D images.
7. User Experience Feedback: Ongoing collection of feedback from dental professionals for continuous improvement.
8. Regulatory Compliance: Adhering to medical device regulations and obtaining necessary certifications (e.g., FDA, CE).
Manufacturing Process of Intraoral Scanner
1. Design & Development:
– Conceptualization: Initial design involving engineers, dental experts, and software developers.
– Prototyping: Creating early versions to test functionality and integration.
2. Material Selection:
– Opt for high-quality, biocompatible materials for contact points.
– Select high-resolution sensors and durable, lightweight casing materials.
3. Component Manufacturing:
– Utilization of CNC machining for precision parts.
– Injection molding for plastic components.
4. Assembly:
– Sub-Assembly: Assembling individual parts like optical modules, sensor systems, and handle components.
– Main Assembly: Integrating sub-assemblies into the main scanner body.
5. Software Installation:
– Loading specialized 3D imaging software and calibration libraries.
– Initial configuration and test runs.
6. Calibrations and Testing:
– Conducting detailed alignment and calibration processes.
– Performing thorough functional and quality tests.
7. Sterilization and Packaging:
– Ensuring components are sterile for clinical use.
– Packaging with user manuals, warranty cards, and accessories.
8. Distribution:
– Distributing to dental clinics, hospitals, and specialized retailers through logistics.
9. Post-Sales Support:
– Providing training, customer service, and software updates.
By adhering to these quality control measures and precise manufacturing processes, manufacturers ensure intraoral scanners are reliable, accurate, and safe for clinical use.
How to use “scanner intra oral”
Using an intraoral scanner involves a series of steps aimed at capturing precise digital impressions of a patient’s mouth. Here’s a simplified guide:
1. Preparation:
– Ensure the scanner is charged or properly connected to a power source.
– Initialize the scanning software on your computer or device.
– Enter the patient’s details into the system for record-keeping.
2. Patient Preparation:
– Ensure the patient is seated comfortably.
– Explain the process to the patient to help them remain calm.
– Ensure the patient’s mouth is clean. Remove any visible debris or excess saliva. Sometimes, a quick rinse is beneficial.
3. Scanner Calibration:
– Follow the manufacturer’s instructions to calibrate the scanner if required.
– Check the settings for accuracy.
4. Scanning Process:
– Wear appropriate protective equipment (gloves, mask, etc.).
– Turn on the intraoral scanner.
– Gently insert the scanner tip into the patient’s mouth.
– Begin scanning from the back molars, moving systematically towards the front teeth.
– Gradually cover all surfaces of the teeth: occlusal (top surfaces), buccal (cheek-facing surfaces), and lingual (tongue-facing surfaces).
– Use slow, steady motions to capture accurate data.
– Make sure to capture the gingival margins and surrounding tissues.
5. Real-Time Feedback:
– Most scanners provide real-time images on a connected screen.
– Review the scan in real-time to make sure no areas are missed.
– Rescan any incomplete or unclear sections.
6. Finishing Up:
– Once completed, save the digital impressions in the system.
– Clean and disinfect the scanner as per the manufacturer’s guidelines.
– Discuss the next steps with the patient, whether it’s for designing a dental restoration or further analysis.
7. Data Utilization:
– The digital impressions can now be used for designing crowns, bridges, dentures, or orthodontic appliances.
– The data can also be shared instantly with dental laboratories if necessary.
By following these steps, you can effectively use an intraoral scanner, ensuring high-quality digital impressions for various dental applications.
“scanner intra oral” Comparative Analysis
Intraoral scanners (IOS) are essential tools in modern dentistry, offering digital impressions as a substitute for conventional methods. The main players in this field include 3Shape, iTero, Planmeca, and Dentsply Sirona, each providing unique features and benefits.
Accuracy and Precision:
Accuracy is paramount in IOS technology. Studies show that 3Shape’s TRIOS scanners consistently deliver high accuracy. iTero, particularly popular in orthodontics, boasts comparable precision, which is crucial for aligners. Planmeca’s Emerald S is noted for its reliable results in restorative dentistry, while Dentsply Sirona’s Primescan is acclaimed for its extraordinary precision, especially in large, full-arch scans.
Ease of Use:
User experience significantly impacts clinical efficiency. 3Shape TRIOS excels in this regard with its intuitive interface and fast scanning, often cited as among the easiest to use. iTero scanners are favored for their ergonomic design and seamless integration with Invisalign. Planmeca’s Emerald S is lightweight, enhancing maneuverability, and user comfort. Primescan, with its broader color touchscreen and guided scanning, simplifies the user experience even for less tech-savvy practitioners.
Integration and Workflow:
Integration with other systems and software is critical. 3Shape TRIOS offers extensive software compatibility, enhancing its utility in various dental procedures. iTero aligns well with orthodontic treatments, particularly through its direct integration with Invisalign. Planmeca’s scanners integrate seamlessly with its comprehensive suite of dental solutions, promoting a cohesive digital ecosystem. Dentsply Sirona’s Primescan is part of the CEREC system, facilitating chairside restorations and efficient workflows.
Cost and Investment:
Initial cost and maintenance are significant considerations. 3Shape TRIOS and Dentsply Sirona’s Primescan are premium options with high upfront costs but justify the investment with superior performance and features. iTero offers a balanced approach, providing quality and integration at a competitive price. Planmeca Emerald S is often recognized for offering good value, providing excellent functionality at a reasonable price point.
In summary, the choice of an intraoral scanner depends heavily on specific clinical needs, budget, and integration preferences. Each of these leading brands offers distinct advantages that cater to different aspects of dental practice.
“scanner intra oral” Warranty and Support
When investing in an intraoral scanner, the warranty and support are crucial factors to consider to ensure long-term reliability and seamless operation.
Warranty:
Most manufacturers offer a standard warranty period ranging from one to five years, often covering defects in materials and workmanship. It’s essential to understand the specifics: some warranties may cover only specific components, while others might offer comprehensive protection. Extended warranties may also be available for purchase, providing additional peace of mind. Always check if the warranty includes parts, labor, and shipping costs.
Support:
Support services are equally important. Top-tier manufacturers typically offer robust customer support, including technical assistance, software updates, and training. Look for companies that provide 24/7 customer service or dedicated support helplines. Additionally, access to a local or regional technical team can be an invaluable resource for immediate, on-site assistance.
Key Points to Consider:
1. Warranty Coverage: Determine if the warranty covers both hardware and software issues.
2. Support Accessibility: Ensure that the support team is easily reachable via multiple channels, such as phone, email, and live chat.
3. Training and Resources: Comprehensive training sessions and access to online resources can enhance user experience and efficiency.
4. Replacement Policy: Understand the process for equipment replacement or repair and the average turnaround time.
5. Software Updates: Regular software updates are crucial for maintaining the scanner’s performance and compatibility with other systems.
Choosing a scanner with a solid warranty and extensive support services can save significant costs and downtime, ensuring your practice runs smoothly. Always read the fine print and, if possible, talk to other users for their insights on the warranty and support experiences they have encountered.
List “scanner intra oral” FAQ
Scanner Intra Oral FAQ
1. What is an intraoral scanner?
An intraoral scanner is a device used by dental professionals to create digital impressions of the teeth and gums. It captures detailed 3D images inside the patient’s mouth without the need for traditional molds.
2. How does an intraoral scanner work?
The scanner uses a wand-like device with a camera that is moved around the mouth. It captures continuous images which are stitched together to form a complete 3D digital model of the oral cavity.
3. What are the benefits of using an intraoral scanner?
– Accuracy: Provides precise digital impressions.
– Comfort: Eliminates the need for uncomfortable traditional molds.
– Speed: Faster process compared to traditional methods.
– Efficiency: Streamlines workflows for dental labs and clinics.
– Patient Communication: Enhances patient understanding through visual aids.
4. Is an intraoral scanner safe?
Yes, intraoral scanners are safe. They use non-ionizing light, which does not expose patients to radiation.
5. Can intraoral scanners capture full arch impressions?
Yes, modern intraoral scanners can capture complete arch impressions, providing comprehensive details.
6. How are the digital impressions used?
The digital impressions can be used for creating crowns, bridges, aligners, veneers, and for planning dental implants. They can be shared with dental labs to produce accurate appliances.
7. Do patients need any special preparation before scanning?
Typically, no special preparation is needed. However, maintaining good oral hygiene before the appointment can make the process smoother.
8. How long does the scanning process take?
The scanning process can take anywhere from a few minutes to around 15 minutes, depending on the complexity of the case.
9. Are the digital files compatible with all dental software?
Most modern intraoral scanners produce files that are compatible with widely used dental CAD/CAM software through common formats like STL.
10. Is training required to use an intraoral scanner?
Yes, training is generally required to use the scanner effectively. Manufacturers usually provide training sessions and resources.
By integrating intraoral scanners, dental practices can significantly improve their precision, patient experience, and operational efficiency.
Top 10 FAQ with answer about scanner intra oral for Buyer Sourcing from China
1. What is an intraoral scanner?
An intraoral scanner is a dental device used to create detailed 3D digital impressions of the inside of a patient’s mouth. These scanners replace traditional dental molds made with impression materials.
2. Why should I source intraoral scanners from China?
China offers competitive pricing and a wide range of manufacturers specializing in advanced dental technology. Many Chinese manufacturers are ISO certified, ensuring quality and adherence to international standards.
3. What are the key features to look for in an intraoral scanner?
Key features include accuracy and precision, scanning speed, ease of use, software integration, portability, and the quality of customer support and training provided by the manufacturer.
4. Are the intraoral scanners from China compliant with international standards?
Many Chinese intraoral scanner manufacturers comply with international standards such as CE, FDA, and ISO certifications. Always verify the certifications and credentials of the manufacturer.
5. How do I verify the reliability of a Chinese manufacturer?
Conduct due diligence by checking the manufacturer’s certifications, reading customer reviews, requesting product samples, and possibly visiting the factory. Utilize third-party inspection services if necessary.
6. What is the typical price range for intraoral scanners from China?
The price range varies depending on the features and brand. On average, prices can range from $5,000 to $25,000. High-end models with advanced features may cost more.
7. Can I get technical support and training if I buy from China?
Reputable Chinese manufacturers often provide comprehensive technical support and training. It’s crucial to confirm the availability and quality of these services before purchasing.
8. What are the shipping options and costs?
Shipping options typically include air, sea, and express courier. Costs vary based on the shipping method and destination. It’s advisable to discuss shipping terms and costs with the supplier beforehand.
9. How long does the delivery take?
Delivery times can vary. For air freight, it typically takes 5-10 days. Sea freight can take 20-40 days depending on the destination. Always confirm lead times with the supplier.
10. What is the warranty policy for intraoral scanners from China?
Warranty periods usually range from one to three years. It’s important to discuss warranty terms in detail, including what is covered and the process for repairs or replacements.
Understanding these FAQs can help you make an informed decision when sourcing intraoral scanners from China. Always ensure thorough research and clear communication with the supplier.