Ophthalmic laboratory technicians—also known as manufacturing
opticians, optical mechanics, or optical goods workers—make
prescription eyeglass or contact lenses. Prescription lenses are curved
in such a way that light is correctly focused onto the retina of the
patient’s eye, improving his or her vision. Some ophthalmic laboratory
technicians manufacture lenses for other optical instruments, such as
telescopes and binoculars. Ophthalmic laboratory technicians cut, grind,
edge, and finish lenses according to specifications provided by
dispensing opticians, optometrists, or ophthalmologists and may insert
lenses into frames to produce finished glasses. Although some lenses
still are produced by hand, technicians are increasingly using automated
equipment to make lenses.
Ophthalmic laboratory technicians should not be confused with
workers in other vision care occupations. Ophthalmologists and
optometrists are “eye doctors” who examine eyes, diagnose and treat
vision problems, and prescribe corrective lenses. Ophthalmologists are
physicians who perform eye surgery. Dispensing opticians, who also may
do the work of ophthalmic laboratory technicians, help patients select
frames and lenses, and adjust finished eyeglasses. (See the statement on
physicians and surgeons, which includes ophthalmologists, as well as the
statements on optometrists and opticians, dispensing, elsewhere in the Handbook.)
Ophthalmic laboratory technicians read prescription specifications,
select standard glass or plastic lens blanks, and then mark them to
indicate where the curves specified on the prescription should be
ground. They place the lens in the lens grinder, set the dials for the
prescribed curvature, and start the machine. After a minute or so, the
lens is ready to be “finished” by a machine that rotates it against
a fine abrasive, to grind it and smooth out rough edges. The lens is
then placed in a polishing machine with an even finer abrasive, to
polish it to a smooth, bright finish.
Next, the technician examines the lens through a lensometer, an
instrument similar in shape to a microscope, to make sure that the
degree and placement of the curve are correct. The technician then cuts
the lenses and bevels the edges to fit the frame, dips each lens into
dye if the prescription calls for tinted or coated lenses, polishes the
edges, and assembles the lenses and frame parts into a finished pair of
glasses.
In small laboratories, technicians usually handle every phase of the
operation. In large ones, in which virtually every phase of the
operation is automated, technicians may be responsible for operating
computerized equipment. Technicians also inspect the final product for
quality and accuracy.
Ophthalmic laboratory technicians work in relatively clean and
well-lighted laboratories and have limited contact with the public.
Their surroundings are relatively quiet despite the humming of machines.
At times, technicians wear goggles to protect their eyes, and they may
spend a great deal of time standing.
Most ophthalmic laboratory technicians work a 5-day, 40-hour week,
which may include weekends, evenings, or, occasionally, some overtime.
Some work part time.
Ophthalmic laboratory technicians need to take precautions against
the hazards associated with cutting glass, handling chemicals, and
working near machinery.
Ophthalmic laboratory technicians held about 33,000 jobs in 2002.
Around 34 percent were in health and personal care stores, such as
optical goods stores that manufacture and sell prescription glasses and
contact lenses. About 29 percent were in medical equipment and supplies
manufacturing, working for ophthalmic goods manufacturers that produce
eyewear and contact lenses for sale by retail stores, as well as by
ophthalmologists and optometrists. Most of the rest were in offices of
other health practitioners, professional and commercial equipment and
supplies merchant wholesalers, offices of physicians, employment
services, or in commercial and service industry machine manufacturing
firms that produce lenses for other optical instruments, such as
telescopes and binoculars.
Nearly all ophthalmic laboratory technicians learn their skills on
the job. Employers filling trainee jobs prefer applicants who are high
school graduates. Courses in science, mathematics, and computers are
valuable; manual dexterity and the ability to do precision work are
essential.
Technician trainees producing lenses by hand start on simple tasks,
such as marking or blocking lenses for grinding, and then progress to
grinding, cutting, edging, and beveling lenses, and, finally, to
assembling the eyeglasses. Depending on individual aptitude, it may take
up to 6 months to become proficient in all phases of the work.
Technicians using automated systems will find computer skills
valuable. Training is completed on the job and varies in duration,
depending on the type of machinery and the worker’s aptitude.
A very small number of ophthalmic laboratory technicians learn their
trade in the Armed Forces or in the few programs in optical technology
offered by vocational-technical institutes or trade schools. These
programs have classes in optical theory, surfacing and lens finishing,
and the reading and applying of prescriptions. Programs vary in length
from 6 months to 1 year and award certificates or diplomas.
Ophthalmic laboratory technicians can become supervisors and
managers. Some become dispensing opticians, although further education
or training generally is required in that occupation.
Overall employment of ophthalmic laboratory technicians is expected
to grow more slowly than the
average for all occupations through the year 2012, reflecting the
increasing use of automated machinery. Most job openings will arise from
the need to replace technicians who transfer to other occupations or who
leave the labor force. Only a limited number of job openings will be
created each year, because the occupation is small.
Demographic trends make it likely that many more Americans will need
vision care in the years ahead. Not only will the population grow, but
also, the proportion of middle-aged and older adults is projected to
increase rapidly. Middle age is a time when many people use corrective
lenses for the first time, and elderly persons usually require more
vision care than others.
Fashion also influences demand. Frames come in a variety of styles
and colors, encouraging people to buy more than one pair. Demand is
expected to grow as well in response to the availability of new
technologies that improve the quality and look of corrective lenses,
such as antireflective coatings and bifocal lenses without the line that
is visible in traditional bifocals.
Median hourly earnings of ophthalmic laboratory technicians were
$10.46 in 2002. The middle 50 percent earned between $8.73 and $13.05 an
hour. The lowest 10 percent earned less than $7.56, and the highest 10
percent earned more than $16.40 an hour. In 2002, median hourly earnings
of ophthalmic laboratory technicians were $10.68 in medical equipment
and supplies manufacturing and $10.15 in health and personal care
stores.
Suggested citation: Bureau of Labor Statistics,
U.S. Department of Labor, Occupational Outlook Handbook,
2004-05 Edition,
Ophthalmic Laboratory Technicians
, on the Internet at http://www.bls.gov/oco/
ocos239.htm
(visited January 27, 2005).
