HOW TO CHOOSE A BORESCOPE, ENDOSCOPE OR VIDEOSCOPE

Every day, we help people select the right borescope and accessories for their specific application.

 

Rigid vs Flexible

There is a difference between a Rigid and a flexible borescope

Rigid

Rigid borescope
Rigid borescopes give higher quality images, are easier to use and are less expensive than flexible scopes of similar quality. Choose a rigid borescope unless the rigidity is a problem. Then you need

Flexible

Flexible borescope
A flexible fiberscope lets you see inside spaces that a rigid borescope can’t penetrate. Blue Flexible borescopes can offer the additional benefit of articulation — the ability to remotely control the tip of the scope so that it bends in two or four directions to look around a cavity.

Take a look at some Rigid vs. Flexible borescope comparison images.

Diameter

The borescope must fit through the smallest hole required. When choosing a borescope diameter, consider more than clearing the sides of the hole. A slightly smaller scope may allow “wiggle room” so that you can see more by tilting the scope. The best thing is to try it. If you need to see into very small holes and relatively large ones, it is usually best to optimize for each, by using two borescopes. The micro slim borescope can fit into a 0.075″ (1.85mm) diameter hole.

Borescope Outer Diameter Sizes

Sizes

Length

Choose a borescope to penetrate to the greatest depth required, but not so long as to be unwieldy outside the hole. Blue borescopes are available in a variety of lengths from 2″ to 33″ for rigid scopes and 27″ to 70″ for flexible borescopes.

Direction-of-View

Take a longitudinal axis through the center of the body of a rigid borescope, or the tip of a flexible. The direction-of-view is the angle from that axis of the center of the field-of-view. Look at your particular application, noting the point of borescope entry and the area to be examined. If the subject is straight ahead of a convenient entry hole a 0° direction-of-view might be best. If the subject is very close to the entry port, like engine valves near a spark plug hole, a backward-looking 120° borescope might be best. When examining a bore, like a rifle barrel, a 90° Mirror Tube will be perfect.

Direction of view

Field-of-View

Field-of-view may be very wide, wide, medium, or narrow. Think of it as a cone coming from the borescope tip, so that anything within the cone is visible. The field-of-view of the slim borescope is approximately 37°. Field-of-View should be dictated by the distance from the distal end of the borescope to the subject, for your application. The wider the field the lower the magnification, and vice versa. If you have plenty of space to move inside the cavity, but want to see both detailed close-ups and big picture views you might choose a 67° moderate wide angle. If the space is more confined but you still need to see most of it at one time, try a 90° extreme wide angle. On the other hand, if you can’t get close enough to show the detail you need, a 30° telephoto might be required.

Field of view

Magnification

Magnification

Microscopes and loupes have very limited depth of field — they are only in clear focus at a single distance, so the magnification is also fixed. A borescope, however, has a very large depth of field — often from infinity down to an inch or less — that makes them easy to use without constant refocusing. The closer an object is to the lens of a borescope, the greater the magnification. To calculate magnification you must know the distance of the subject from the lens. The same principles apply to rigid or flexible borescopes.

Flexible vs Rigid Video Images

The images below were taken using a Rigid borescopes and Blue Flexible borescopes with the Luxxor 24 Light Source, Luxxor Video Coupler Lens and a Sony video camera. The images were captured using software and capture a card. Images taken at 640 x 480 and scaled to 320 x 240 for display in table.
Honda 500cm3 Motorcycle Engine
This image was taken using the Flexible borescope
with the 90 degree mirror adapter in place. A 35mm
FL coupler lens was used.
This image was taken using the Hardy borescope
with the 90 degree mirror adapter in place. A 35mm
FL coupler lens was used.
This image was taken using the Blue Flexible
borescope articulated to 90°. A 35mm FL coupler
lens was used.
This image was taken using a Karl Storz 120° DOV
borescope. A 25mm FL coupler lens was used