Application of industrial endoscope in Aeroengine bore detection
Feb 22nd, 2022 at 16:22 Fashion Salem 18 viewsAs a more convenient way of travel, civil aviation has been widely accepted and has become one of the most important means of transportation for modern people's business and travel. At the same time, aviation safety has always attracted people's attention. As the "heart" of the aircraft, aero engines are closely related to aviation safety. Nowadays, there are various non-destructive testing tools for testing and repairing it. The use of industrial endoscope for hole detection is one of the routine tasks. It does not need to disassemble and destroy the engine structure, and can perform efficient testing. Accident prevention plays an important role.
The working environment of civil aviation engines is very harsh, under high temperature and high pressure for a long time, the internal temperature is as high as 2000 , so if the potential safety hazards are not eliminated in time, it may cause serious consequences. It is necessary to use videoscopes for regular non-destructive testing. So what aspects of the industrial videoscope can be used for inspection? Mainly in the following aspects:
1. Compressor inspection.
2. Detection of combustion chamber components.
3. Turbine blade inspection.
Check the compressor and turbine internal blades for flaws, cracks, incompleteness, etc., and check the internal damage of the combustion chamber. If necessary, it is necessary to accurately measure the size of the defect to formulate corresponding countermeasures.
Hole inspection through the endoscope can quickly and timely find the internal structural damage of the engine, continue to track and evaluate the expansion of the damage, avoid greater damage, effectively reduce the maintenance cost of the engine, and fully save the maintenance downtime. Of course, at the same time, engine hole inspection is also a complex task, and its accuracy is closely related to the operational level, work experience, theoretical knowledge and other qualities of the inspectors. Therefore, in general, hole inspection needs more experience. , Skilled inspection personnel perform operations to avoid missed inspections and false inspections; at the same time, professionals are also required to perform more accurate image analysis to avoid false inspections and misjudgments of the inspection results, thereby incurring unnecessary additional costs.
Visual Inspection Using Borescopes
In recent years, many facilities have obtained borescopes for processing personnel to use during visual inspection of endoscopes. Borescopes are tiny flexible endoscopes that can be used to look inside the small areas of medical instruments, and they are particularly well suited to inspect the interiors of ports and lumens. The utility of borescopes in visual inspection was initially established during an investigation of surgical site infections linked to contaminated instruments used in knee and shoulder surgery. When investigators used a borescope to look inside arthroscopic shavers, they found retained debris, including bone fragments and brush bristles.27 In a foundational study by Azizi et al.,28 visible residue or debris was detected inside 95% of 350 lumened surgical instruments.
Ofstead Studies Involving Borescope Examinations
After learning about the potential value of borescopes for identifying retained soil and debris, our team designed a study where the ports and channels of 20 colonoscopes and gastroscopes were carefully inspected three times during a seven-month period.7 Our goals were to determine whether damage and debris accumulated over time and whether more rigorous processing could completely eliminate contamination. This was the first time a medical borescope was used to prospectively monitor endoscope cleanliness and damage over time, so we had to develop our own protocol and reference materials.
First, we familiarized ourselves with the normal appearance of endoscope ports and lumens (Figure 1). During the baseline assessment, we inspected the inside of ports and channels and took photographs at specified points inside each endoscope. That way, we could compare the appearance of each component at baseline with how it looked at follow-up assessments. We were also able to compare each colonoscope or gastroscope with others in the fleet, which helped determine whether what we saw were normal features of the channels or ports or irregularities that required assessment by an endoscope maintenance technician.
A wireless electronic endoscope that transmits signals by Wi-Fi is developed for use in single-hole endoscopic surgery and future application to natural orifice surgery. The innovative electronic endoscope developed in this study has a disposable design, completely preventing patents from taking risks of cross infection. The main components of the endoscope are a disposable component of the front tip and the hand-held part of the rear tip. The front tip consists of a lens, metallic tube, and electronic joint whereas the rear tip consists of a power switch, image converter, wireless transceiver chip, and antenna.