1923 Gurley Smith Solar Transit w/Orig. Box and Xtras, missing Smith Attachment For Sale
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1923 Gurley Smith Solar Transit w/Orig. Box and Xtras, missing Smith Attachment:
This isvery niceGurley Solar transit that is missing theSmith solar attachment, find the correct attachment and the value of this inst. will be double. Motionsare smooth, optics and cross hairs are in good shape, this is a good working instrument in the correct original box and a few box extras.This transit has an 10" long scope, a 4" compass needle and a 5 1/2" plate so is a smaller size Gurley transit
Postage is $30.00if within the US, more If you are outside the US; no charge for careful packing.
Here is some information on the well known firm W.&L.E. W. & L. E. Gurley
Troy, New York
William Gurley (1821–1887) graduated as a civil engineer from Rensselaer Polytechnic Institute. After going as far west as Michigan seeking employment as an engineer and finding none, he returned to Troy and went to work for five years as a foreman for Oscar Hanks, a surveying instrument maker. In 1845, William formed a partnership with Jonas Phelps under the firm name of Phelps & Gurley., worked for Oscar Hanks, a surveying instrument maker in Troy, New York, and then went into partnership with Jonas H. Phelps, another local instrument maker. Lewis Ephraim Gurley (1826–1897) worked for Phelps & Gurley, earned a B.A. from Union College in Schenectady and graduated with a Bachelor of Arts degree.He then rejoined the firm and in 1852 the Gurley brothers purchased Jonas Phelps' interest in the business and the firm became known as W. & L. E. Gurley.
W. & L. E. Gurley was soon the largest manufacturer of engineering and surveying instruments in the United States. Several factors contributed to their success. Both men, having earned degrees in civil engineering, appreciated the practical applications of technology, and aimed to set their company at the cutting edge of instrument technology. The Gurleys pioneered in mass marketing as well as mass production of instruments.They established a factory rather than a craft workshop, practiced a strict division of labor, hired workers who were relatively unskilled, advertised widely, and offered instruments at competitive prices. Their Manual of the Principal Instruments Used in American Engineering and Surveying, published from 1855 to 1921, was a catalog of their instruments and an intelligent explanation of how they were to be used.
The design of Gurley instruments remained remarkably stable for many years, making it difficult to determine the date of a particular instrument. But there are some important clues. Since the signatures on the early Gurley instruments were cut by hand, the letters have V-shaped trenches, and their lines are of varying width. By contrast, the signatures on Gurley instruments made after 1876 were done with an engraving machine, and thus have lines with vertical walls and uniform width. The finish on Gurley instruments is not a good dating characteristic, but may serve as a guide. Since 1855, and probably before, the customer had the option of either a "bright" finish of lacquered brass, or a "bronze" finish, achieved by acid treatment of the polished surfaces before lacquering. Until the mid 1870s, unless otherwise specified, all instruments were furnished "bright." From that time until about 1900 compasses were furnished "bright," and transits, levels, and solar instruments were "bronzed." Aluminum instruments, first offered in 1876 but not ostensibly marketed until about 1895, were always furnished with a "natural" finish. The "morocco" finish was introduced in 1916. In 1886 Gurley made a basic design modification to its transits. The two most obvious changes were the introduction of spring opposed tangent screws, and the replacement of the straight legged "A" form telescope supports with a bent leg design. The Gurleys introduced serial numbers in 1908, with the first digits indicating the year of manufacture, and the latter digits indicating production rate. Thus, transit #9296 was the 296th Gurley instrument made in 1909. W. & L. E. Gurley was incorporated in 1900, with all the stock held by the family. Teledyne purchased the firm in 1968, began trading as Teledyne-Gurley, and phased out the production of surveying instruments soon
Although Gurley was neither the inventor nor the earliest producer of solar instruments, when it finally got into the game it became a major player. The completeness of their line, the diversity of their designs, and the sheer numbers made, justify a study of Gurley's solar instruments. The Gurleys introduced three solar instruments in 1858. Burt's solar compass. Gurley's original Solar Compass was similar to Burt's improved solar compass. A second form, in which the tangent screws were moved close to their arcs, was introduced in the 1860s. A third form, with modified declination are, was introduced in 1895. The fourth and final design appeared in 1911, and was discontinued in 1915. This form incorporated redesigned declination and latitude arcs, and the solar apparatus was mounted over a full compass. Gurley's Solar and Rail Road Compass was a transitional piece, introduced in 1858 and retired in the 1860s. This was a conversion of Gurley's standard Rail Road Compass in which the brass ring, glass cover, magnetic needle, and center pin were replaced with the solar apparatus mounted on a circular brass plate. Gurley's Solar Telescope Compass introduced in 1858 consisted of a solar apparatus mounted on a circular brass plate to which was affixed a telescopic sight. A second form, with the tangent screws moved close to their arcs as in the Solar Compass, was introduced in the 1860s. This instrument was not successful--"the position of the telescope to one side of the center, and the excess weight on that side have always been serious objections to its use in the field"--and Gurley sold Gurley's Solar Telescope their last one in 1870. Gurley also produced a line of pocket compasses that mirrored their full scale line. These smaller instruments could be used on a tripod or jacob's staff, and could even be provided with leveling heads and telescopic sights. Establishing the date of these instruments is particularly difficult, because Gurley never put serial numbers on them.
By the mid 19th century the transit had become standard for topographic surveys and, in terms of sales, was probably the most important instrument. It was imperative that a solar transit be devised. By the late 1860s the rush was 0 11. The first solar transit was invented by William Schmolz, a San Francisco instrument maker patented by him on December 24, 1867. His solar consisted of an attachment, basically of Burt's 1850 configuration, mounted on top of the transit telescope at the axis. Schmolz's invention was quickly followed by F. R. Seibert's solar transit in 1869, Benjamin Lyman's solar compass patented in 187 I, Harrison Pearson's solar attachment patented in 1875, Buff & Berger's Pearson's solar attachment in 1878, and J. W. Holmes' solar theodolite also in The Gurleys could not afford to be left out of the market in such a vital area. In mid-1874 William Gurley sent his brother-inlaw, attorney Charles A. Kenney, to visit William Schmolz and to negotiate the purchase of his patent. On August 10, 1874 Schmolz agreed to sell the rights to Kenney for $1,000 in gold coin. On October 14, 1874 the patent for "Improvements in Solar and Transit Instrument" was transferred to Kenney, and from Kenney to W. & L.E. Gurley, with one provision: "But I, the said Schmolz, hereby reserve to myself the privilege of manufacturing at my shop in said San Francisco, and using the said improvement on one of said instruments and no more, in each and every year hereafter."
Production of the Solar Attachments--which were always referred to as the Burt Solar Attachment began right away. 8 solar attachments were mounted onto Engineers' Transits with either 4" or 5" needles, and onto Surveyors' Transits with either 5" or 5 1/2" needles. In addition, older instruments could sent to the factory to be retrofitted with the new device. The solar attachment was particularly useful on the Light Mountain Transit introduced in 1876. In fact, of the approximately 500 Light Mountain Transits made from 1876 to 1885, nearly 40% were solar. During that same period, approximately 70% of all solar transits made were Light Mountain Solar Transits. The Solar attachments continued in production with only minor modifications until 1948. The original design had no cross support. The 1876 design includes an arcuate cross support. The 1883 version has a straight cross support. In the 1911-12 form the cross support is aligned with the spindle.
W. & L.E. Gurley patented a Latitude Level on
September 2, 1884. Its purpose was to "recover the Latitude of a Solar
Transit, without referring to the vertical arc; and generally for setting the
telescope at any desired angle in running grades, etc." By 1885 this
device had been redesigned to include two adjustment screws instead of one. The
Latitude Level was first offered in 1885, and was furnished, at no charge, on
all solar transits made thereafter. The
R. M. Jones Latitude Arc was Patented on January 16, 1883. Gurley secured
exclusive rights to its manufacture, and it first appeared in their 1884 Manual.
This device had its own vertical arc and latitude level, and replaced the