Bias Airway buffing wheel, also called as airway buffs, airflow buffs, Ventilated buffs. The special air folded structure brings bias airway buffing polishing wheel strong cutting force, high brightness, fine finishing, can cool the workpiece surface at a very short time. Make airway buffing polishing wheel widely use on metal and non metal products polishing, such as wood, stainless steel, aluminum, copper etc. Involved in variety of industries: furniture, automobile spare part, hardware, building materials,etc.
Airway buffs are a type of buffing and polishing wheel that is made up of multiple plys of cotton Cloth attached to a steel center plate. Each cloth layer of these 16-ply wheels is attached to the steel plate in a way that forces the cotton to form pleats.
The different colors of airway buffs are not there to let you work with your favorite color. Each of these colors has a different firmness/softness of the cloth pieces which are meant for different steps in the polishing process. You should also consider pairing each color buffing wheel with the appropriate color buffing compounds. Cotton Polishing Buff Wheel,Sisal Buffing Wheel,Flap Buffing Wheel ,Non-woven Wheel Polishing Jiangmen Gude Polishing Equipment Co., Ltd , https://www.kokipolishing.com
Acceptance method change
In the introduction, the current video diagnosis mainly has two processing methods, namely, backend identification and front-end embedded recognition. Which method is more in line with actual needs? Liu Xuefei, product manager of Beijing Wenan Technology Development Co., Ltd. believes that: The video stream consumes a large amount of bandwidth, and it can also detect equipment failures in real time. However, the problem is that the power consumption of the front-end IPC increases and the cost of the IPC equipment increases. Although the power consumption and cost are lower in the back-end access identification method, how to detect faults in a timely manner under limited bandwidth is also a problem to be solved. The warmest stage of the construction of the “Safe City†in China has passed. Now that the camera network has been completed, many of them have no embedded identification module. These devices will not be replaced in a short time, so the back end will be back System diagnostics will occupy a major position. With the reduction of hardware costs and process improvements, embedded IPC system diagnostics will be developed in the future. Aibo Xinjian Du Jianying also has full confidence in the front-end embedded: "In the future the algorithm must be directly embedded in the IPC." At the same time, he also rationally pointed out the inadequacies of embedded design: a camera can only support a certain number of diagnostic functions, such as It can only embed simple functions such as black screen, overburden, and blocking, and the two functions such as scrolling and color cast are not yet available in the camera.
Extended application will expand
With the perfection of the diagnostic system, it will surely extend to other applications, so that the video diagnostic system is no longer limited to the quality analysis of the video. At the same time, real-time diagnosis of the network conditions and the operating status of each hardware device is synchronized to give full play to it. Diagnostic system features. Suzhou Keda Liu Zhiqiang introduced that in addition to image analysis technology, the video diagnostic system must also take into consideration two points: One is network management technology. For an IP communication system, the network management is very important, and its purpose is mainly equipment management and operation status monitoring. In the IP monitoring system, the network management system can realize the management of front-end IPC equipment, including the equipment operating status, transmission network, parameter configuration, remote debugging and other functions. A professional network management system still has a relatively large development difficulty. At the same time, it needs to follow the standard network management protocol system; second is the alarm linkage technology. After detecting IPC equipment and image problems, the system should take the initiative to alarm and link back-end systems. It is the most important to issue corresponding image switching, sound and photoelectric warnings and other actions. This involves systematic security and linkage.
People have more and more requirements for video diagnostic systems and have made greater expectations about the functions they can achieve. Beijing Wenan Liu Xuefei believes that for operators of surveillance systems, finding faults is only the first step. The analysis, processing, feedback, and supervision as well as all the operation and maintenance behaviors surrounding equipment failures are valuable entry points for system diagnosis. In the case of signal failures, there are many possible causes of signal failures, such as IPC shield defacement, IPC itself power-down, IPC and back-end link exceptions, back-end network equipment or management device anomalies, and so on. Therefore, simply giving a fault conclusion from the perspective of the video signal is not enough to solve the problem faced by the user. Users need more than just system diagnostic tools to find problems, but they must be able to analyze the data at the same time as failures to find the basic cause of the failure and give reliable advice. This requires diagnostic tools, on the one hand to cooperate with the monitoring platform, on the other hand to dig deeper into the needs of users. Future diagnostic systems should be able to provide a complete solution to the operation and maintenance of IPC equipment.
In addition, there are some artificial obstacles, Aibo Xinjian Du Jianying reminded: "We have noticed that in some areas camera maintenance work is outsourced. If there is a video quality diagnostic system, it will increase the number of outsourced maintenance personnel. Workload, so this part of people have a lot of resistance to system diagnostic products, and some even intentionally undermine the independent video diagnostic system server." The resulting management problems, users and managers need to put the diagnostic system in operation Do a good job in the management of personnel organization.
From the perspective of application requirements of the video quality diagnostic system, its development momentum is strong. When measured by the status quo of development and technology, it is doomed to go a long way. The twists and turns along the way are only getting straighter and straighter. With the help of so many colleagues, it is believed that the video diagnostic system will play an important role in intelligent analysis, diagnosis and management in large-scale security monitoring applications and promote the rationalization of large-scale project solutions. Sex, to promote the industry toward a more mature direction.
High-speed buffing and polishing wheels can create a lot of heat from the constant friction of the wheel, surface being buffed, and Polishing Compound grinding at the same time. The fold are designed to increase airflow so that you can buff and polish at a lower temperature. This allows you to work continuously longer than traditional polishing wheels, extends the overall serving life of the airway buff, and lowers the chance of causing damage or burn to the object you are polishing.
Explore two major development trends in video quality diagnostic systems
The video quality diagnosis system is not only a part of the intelligent analysis, but also a part of the monitoring system. As a part, it is constantly being upgraded and improved, and plays an increasingly important role in the overall system. Of course, the emergence and application of a new system will not be easy and it will also face challenges from all aspects.