X-ray baggage scanners are essential in maintaining security in today’s world. They use X-rays to create images of the contents of bags, allowing security personnel to detect prohibited or dangerous items such as weapons, explosives, and drugs. X-ray baggage scanners are particularly important in airports, where large numbers of people and bags need to be screened quickly and efficiently. They are also non-invasive, making the security screening process faster and more convenient for passengers. Overall, X-ray baggage scanners are an effective and necessary tool in ensuring public safety
500mm×300mm, this tunnel size mainly used in hotel,law enforcement,school,event, the tunnel size can be customized to 60cm*40cm
1.Steel penetration: Typical: 38 mm; standard: 35 mm; 2. Wire Resolution: Typical: 40AWG(0.08mm); standard: 38AWG(0.1mm)
X-ray Tube Anode Voltage:160kv
170 kg (374.78 lb)
650 mm × 500 mm (25.59" × 19.69"), this tunnel size mainly used in hotel,law enforcement,school,event,metro station,airport
1.Steel penetration: Typical: 38 mm; standard: 35 mm; 2. Wire Resolution: Typical: 40AWG(0.08mm); standard: 38AWG(0.1mm)
X-ray Tube Anode Voltage:160kv
170 kg (374.78 lb)
1000mm × 1000mm (39.4" × 39.4"), this tunnel size mainly used in logistics/express company
1.Steel penetration: Typical: 36 mm; standard: 34 mm; 2. Wire Resolution: Typical: 40AWG(0.08mm); standard: 38AWG(0.1mm)
X-ray Tube Anode Voltage:160kv
250kg (440.92 lb)
In the context of X-ray baggage scanners, penetration refers to the ability of X-rays to pass through an object or material. X-rays have high energy and short wavelengths, which allows them to penetrate most materials to varying degrees depending on the material’s density and thickness. The penetration of X-rays is determined by the attenuation of the X-rays as they pass through the object. Attenuation is the reduction in the intensity of the X-rays as they pass through a material, and it is influenced by factors such as the atomic number, density, and thickness of the material.
In X-ray baggage scanners, the penetration of X-rays is important for detecting prohibited or dangerous items hidden inside bags or other objects. By analyzing the attenuation of the X-rays as they pass through the object, the scanner can create an image that highlights areas of different densities, which may indicate the presence of a prohibited item. The ability of X-rays to penetrate materials is also important for medical imaging applications, such as X-ray radiography, where the X-rays are used to image internal organs and tissues
The conveyor speed is the speed at which the conveyor belt of an X-ray baggage scanner moves, carrying the baggage or objects through the scanner for inspection. The conveyor speed can be adjusted to suit the needs of the screening application, and it typically ranges from around 0.2 meters per second (m/s) up to 1.2 m/s or more, depending on the model of the scanner.
The conveyor speed is an important factor in determining the throughput of the scanner, which is the number of bags or objects that can be screened per unit of time. A faster conveyor speed can increase the throughput of the scanner, allowing more bags to be screened in a shorter amount of time. However, a faster conveyor speed may also reduce the amount of time that the operator has to review and interpret the scanned images, potentially reducing the effectiveness of the screening process.
The optimal conveyor speed will depend on the specific needs and requirements of the security screening application. Factors to consider when setting the conveyor speed include the size and weight of the bags or objects being screened, the level of threat and risk associated with the screening application, and the desired throughput and efficiency of the screening process
X-ray baggage scanners use a combination of imaging technology and material discrimination algorithms to detect potential explosives in baggage and other objects. When an object is scanned, the X-ray beams penetrate the object and are absorbed or scattered by the various materials within it.
Explosives contain chemicals that have unique atomic compositions, and these compositions are different from those of other materials commonly found in baggage, such as metal, plastic, and clothing. By analyzing the X-ray image of the scanned object, material discrimination algorithms can identify objects that contain potential explosive materials.
Some X-ray baggage scanners also use trace detection technology, which involves the use of swabs or air samplers to collect samples of the air and surfaces in the scanner. These samples are then analyzed for the presence of trace amounts of explosives.
In addition to these technologies, some X-ray baggage scanners also incorporate machine learning algorithms and artificial intelligence to improve their ability to detect potential threats. These algorithms are trained on large databases of images and can recognize patterns associated with explosives, even in complex or cluttered X-ray images.
Overall, X-ray baggage scanners use a combination of imaging technology, material discrimination algorithms, trace detection technology, and machine learning to detect potential explosives in baggage and other objects. These technologies have improved the ability of security personnel to detect potential threats and maintain public safety in a variety of settings.
TIP (Threat Image Projection) is a feature that is commonly found in X-ray baggage scanners used for aviation security screening. TIP technology allows the scanner to simulate the presence of potential threats in the scanned image, in order to test the proficiency of the operator and improve their performance.
The TIP feature works by inserting images of simulated threats into the scanned images, without the operator’s knowledge. If the operator correctly identifies the simulated threat, they receive a score indicating their level of proficiency. TIP technology can also be used to provide targeted training for operators who may need additional practice in identifying specific types of threats.
TIP technology is an important tool for improving the effectiveness of X-ray baggage screening, as it allows operators to practice identifying potential threats in a realistic and controlled environment. By using TIP technology to test and train operators, security screening agencies can ensure that their operators are proficient in identifying potential threats, and are able to maintain a high level of vigilance and accuracy in their work.
Overall, TIP technology is a valuable addition to X-ray baggage scanners, and is likely to become increasingly important as security threats continue to evolve and become more sophisticated
AI (artificial intelligence) and intelligent analysis technologies are increasingly being integrated into X-ray baggage scanners to enhance their capabilities and improve security screening. These technologies allow the scanner to automatically detect and identify potential threats, reducing the reliance on human operators to identify and interpret scanned images.
Intelligent analysis for X-ray baggage scanners typically involves the use of machine learning algorithms to analyze the scanned images and identify potential threats. The algorithms are trained using a database of images of prohibited or dangerous items, allowing them to recognize and flag potential threats based on their shape, size, and density.
Some of the benefits of using AI intelligent analysis for X-ray baggage scanners include:
Improved accuracy: AI algorithms can identify potential threats with a high degree of accuracy, reducing the risk of false positives or false negatives.
Increased efficiency: By automating the detection and identification of potential threats, AI technology can increase the efficiency of the security screening process, allowing more bags to be screened in less time.
Enhanced security: AI technology can detect and identify potential threats that may be difficult for human operators to detect, such as non-metallic explosives or concealed weapons.
Reduced human error: By reducing the reliance on human operators to identify and interpret scanned images, AI technology can reduce the risk of human error and improve the overall effectiveness of the screening process.
Overall, AI intelligent analysis is a promising development for X-ray baggage scanners, and is likely to become increasingly important as security threats continue to evolve and become more sophisticated.
Here is the video for AI detection:
Imaging quality: The imaging quality of an X-ray baggage scanner is a critical factor in determining its effectiveness. Our high-quality scanner is able to produce clear, detailed images that enable operators to easily identify potential threats.
Durability: The durability of an X-ray baggage scanner is another important factor to consider. Our scanner designed to withstand the wear and tear of daily use, and be made with high-quality components that are built to last.
Performance: Our high-performance scanner is able to scan objects quickly and accurately, with minimal errors or false positives. It is also able to handle a wide range of objects and materials, including liquids and powders.
Safety features: Our X-ray baggage scanner is equipped with robust safety features to protect both the operator and the scanned objects. This can include features such as radiation shielding, interlocks, and fail-safe mechanisms.
Compliance: Our high-quality X-ray baggage scanner is designed to comply with all relevant regulations and standards, including those set by local and international aviation authorities.
Flexibility: Customization options allow our customers to choose the features and specifications that best meet their needs. This customiization include things like conveyor belt sizes, imaging software, and the ability to detect specific types of threats etc
Scalability: Customization options is designed to accommodate the changing needs of our customers over time. This means offering modular designs that can be easily upgraded or expanded as necessary.
Integration: Customization options is integrated seamlessly with the overall system design, ensuring that all components work together effectively and efficiently.
Expertise: To offer effective customization options, we have a deep understanding of the needs and requirements of their customers. This requires a high level of expertise in X-ray baggage scanner design, as well as a willingness to work closely with customers to develop tailored solutions.
Cost-effectiveness: Our Customization option is cost-effective that meet the specific needs of our customers. This means avoiding unnecessary features or specifications that drive up the cost of the scanner without providing significant added value.
Cost-effectiveness: Our scanner is designed with cost-effectiveness in mind, minimizing unnecessary features or specifications that drive up the cost of the scanner without providing significant added value.
Competitive pricing: The pricing is competitive compared to similar scanners on the market, without sacrificing quality or reliability.
Customization options: Customization options is offered at a reasonable cost, allowing customers to tailor the scanner to their specific needs and budget.
Warranty and support: A comprehensive warranty and support program is included in the pricing, giving our customers peace of mind and ensuring that any issues are resolved quickly and effectively.
Value-added services: Value-added services such as installation, training, and ongoing maintenance is included in the pricing, further enhancing the overall value of the scanner.
Pre-sales support: we offer comprehensive pre-sales support, including product demonstrations, technical specifications, and customization options, to help customers make informed purchasing decisions.
Installation and training: we offer installation and training services to ensure that our customers can use the scanner effectively and safely.
Ongoing technical support: we offer ongoing technical support to help customers resolve any issues that arise with the scanner, and provide regular maintenance and upgrades to ensure optimal performance.
Responsive customer service: we have a dedicated customer service team that is responsive and accessible, providing timely and effective support to customers when they need it.
Feedback and improvement: we actively seek feedback from our customers to identify areas for improvement, and incorporate customer feedback into product development and service delivery.
On-site training: We can offer on-site training for operators to ensure our customer understand how to use the scanner safely and effectively.
Customized training: We can offer customized training programs to meet the specific needs of each customer, taking into account factors such as the size and complexity of the scanner, the level of expertise of the operators, and the types of items being scanned.
Technical support: We provide technical support to help operators troubleshoot any issues that arise with the scanner, and provide regular maintenance to keep the scanner in optimal condition.
Online resources: We will provide online resources such as training videos and manuals to supplement the on-site training and help operators refresh their knowledge.
Ongoing support: We will offer ongoing support and follow-up training to ensure that operators remain up-to-date with the latest techniques and best practices.
X-ray baggage scanners can scan a wide range of items, including luggage, bags, packages, and containers. The scanner can detect items such as weapons, explosives, and contraband
Yes, X-ray baggage scanners are safe for passengers and operators. The radiation dose is very low and well within safe limits for human exposure. However, operators should follow proper safety protocols and receive adequate training to ensure safe operation of the scanner.
The scanning time depends on various factors such as the size of the item being scanned, the conveyor speed, and the level of detail required. Generally, it takes only a few seconds to scan an item.
X-ray baggage scanners require regular maintenance to ensure optimal performance. This includes cleaning, calibration, and periodic software updates. If any issues arise, the manufacturer or service provider should be contacted for repairs and support.
No, X-ray baggage scanners are not designed to detect items hidden inside the body. They are intended to scan items outside of the body. Full body scanners, which use millimeter-wave technology, are used for screening passengers and can detect objects concealed under clothing. However, these scanners do not see through the body.
You can aslo send email to mike@jzscan.com
Automated page speed optimizations for fast site performance