Lensmeter

A lensmeter or lensometer, also known as a focimeter or vertometer,[1][2] is an ophthalmic instrument. It is mainly used by optometrists and opticians to verify the correct prescription in a pair of eyeglasses, to properly orient and mark uncut lenses, and to confirm the correct mounting of lenses in spectacle frames. Lensmeters can also verify the power of contact lenses, if a special lens support is used.

A Lensmeter in an Optical shop
A simple lensmeter cross sectional view. 1 – Adjustable eyepiece 2 – Reticle
3 – Objective lens 4 – Keplerian telescope
5 – Lens holder 6 – Unknown lens
7 – Standard lens 8 – Illuminated target
9 – Light source 10 – Collimator
11 – Angle adjustment lever
12 – Power drum (+20 and -20 Diopters)
13 – Prism scale knob

The parameters appraised by a lensmeter are the values specified by an ophthalmologist or optometrist on the patient's prescription: sphere, cylinder, axis, add, and in some cases, prism. The lensmeter is also used to check the accuracy of progressive lenses, and is often capable of marking the lens center and various other measurements critical to proper performance of the lens. It may also be used prior to an eye examination to obtain the last prescription the patient was given, in order to expedite the subsequent examination.

History

In 1848, Antoine Claudet produced the photographometer, an instrument designed to measure the intensity of photogenic rays; and in 1849 he brought out the focimeter, for securing a perfect focus in photographic portraiture. [3] In 1876, Hermann Snellen introduced a phakometer which was a similar set up to an optical bench which could measure the power and find the optical centre of a convex lens. Troppman went a step further in 1912, introducing the first direct measuring instrument.

In 1922, a patent was filed for the first projection lensmeter, which has a similar system to the standard lensmeter pictured above, but projects the measuring target onto a screen eliminating the need for correction of the observer's refractive error in the instrument itself and reducing the requirement to peer down a small telescope into the instrument. Despite these advantages the above design is still predominant in the optical world.[4]

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See also

References

  1. "Vertometer. (n.d.) Millodot: Dictionary of Optometry and Visual Science, 7th edition. (2009). Retrieved January 4, 2015 from http://medical-dictionary.thefreedictionary.com/Vertometer". External link in |title= (help)
  2. "Ophthalmology Glossary on Carl Zeiss Vision GmbH website".
  3. Solbert, Oscar N.; Newhall, Beaumont; Card, James G., eds. (February 1952). "The Focimeter" (PDF). Image. Rochester, N.Y.: International Museum of Photography at George Eastman House Inc. 1 (2): 1–2. Archived from the original (PDF) on March 12, 2013. Retrieved June 16, 2014.
  4. "Archived copy". Archived from the original on 2008-05-12. Retrieved 2010-01-30.CS1 maint: archived copy as title (link) accessed 20 Jan 2009
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