London dial

A London dial in the broadest sense can mean any sundial that is set for 51°.30' N, but more specifically refers to a engraved brass horizontal sundial with a distinctive design. London dials were originally engraved by scientific instrument makers. The trade was heavily protected by the system of craft guilds.

A horizontal dial

A gnomon or style is set to point at the celestial north pole, the shadow of the sun is thrown onto the dial plate and will appear at the same position each day of the year, and this position can be calculated using trigonometry, or drawn using geometric construction. In the world of sundials some of the technical terms use an old form of language, so the angle to which the style is set is called the style height. The style height is identical to the geographical latitude, and in London this was 51 degrees 30 minutes or 51.50 degrees, which roughly corresponds with Westminster Bridge. The gnomon has thickness, and thus two shadow throwing edges (the styles) one for the morning and one for the afternoon, there is a gap left on the dialplate the width of the gnomon.

A sundial displays the local apparent time, and watches that use mean time or average time will always be at a slight variance. This difference of time can be calculated and displayed on the dial- again using old language it is known as the equation of time.[lower-alpha 1] A London dials show hour lines, some show half-hour markers, the quarter hours and some divisions representing half-quarters (7 and a half minutes). The equation of time is shown as a three rings, showing the words WATCH SLOWER,WATCH FASTER, the months and dates and the minutes of time of variance.

Geometrical Construction

There are many methods to do this: the one published by Leybourn in 1652 is still popular.[1] Though the one by Dom Francois Bedos de Celles in 1790 is more widely known.[2]

The Whitehurst & Sons London dial in Derby set for Belper 53.03 N. It has all the features of a London engraved dial

Calculations

Style height
Hour lines (mark from 4am to 8pm)
where is the angle from noon line, and
is the geographical latitude.

Definitions

Centre of delineation
the point where the styles and all the hour lines meet. On a dials with a thick gnomon, there will be two centres of delineation, separated by a noon gap.
Gnomon
the vertical triangular component. The gnomon is precisely angled for the latitude, in London that is nominally 51° 30' N. The London gnomon has thickness so the style that casts the shadow for the morning hours is the western edge of the gnomon while the eastern edge of the gnomon is the style that cast the shadow for the afternoon hours.
Chapter ring
this is the ring of written numbers. On the chapter ring may be half-hour indicators and quarter-hour indicators.

Timeline

1500s
Written evidence of dials (Reign Henry VII)
1542
Nicholas Oursian- this is the earliest example in a museum. It is dated with inwardly facing roman numerals. The origin or centre of delineation is the centre of the dialplale. It has simple decoration, a large Tudor Rose beneath the style.[3]
1578
A dial (maker unknown) for Sir Philip Sidney (1554-1586). Decoration included a ropework border, and scrolls at the end of the chapter ring.
1580s
Simple punched dials- for use by the less wealthy, though the gnomon started to have a complex shape.
1590
Isaack Symmes, a 'gouldsmith'(sic) was producing dials. The centre of delineation moved to the southern edge of the dial, the division now included hours, half-hours and quarter hours. The lettering could be gushing, reflecting the developments in calligraphy and silverwork. Some Symmes dials included a volvelle.
Jacobean
1588-1653
Elias Allen, the mathematical instrument maker. These were accurate with austere decoration.
1665
Henry Sutton (1649-1665), a renown engraver of scientific instruments, was a victim of the plague.
1660
Regime change The restored aristocracy restored their houses and decorated their gardens. Decorative sundials were in demand.
1680s
Henry Wynne
1680
Flamsteed's Equation of Time Tables were available. Diallists experimented on how the information should be included on the dial. Thomas Tompion used calendar tables, Wynne preferred linear strip tables. The tables were then drawn as concentric arcs around the compass rose. The early arcs were labelled as Equation of Natural Days- later they included the text Watch Fast. This chapter ring was separated from the compass rose by a decorative ring of oak-leaves.
1700
Wynne retired and his workshop was passed to Thomas Wright- Thomas Tuttell and Richard Glynne
1700s
John Rowley made the hour numbers face outwards, this was adopted by all London diallists and by 1750 in all of the provinces.
1700s
The change of orientation of the Equation of Natural Days came in two stages, firstly a simple reversal that led to the months running backward, then secondly the months were reversed to run left to right, ie counterclockwise.
1750
Mathematical instrument makers moved to a factory system, with workshops of journeymen just doing a small part of the dial. Thomas Heath had a large workshop.[4] Dials were no longer signed by one man. The name was that of the manufactory or even the retailer. Decorations came from a pattern book, these would be scrolls on the Equation of Time ring, coats of arm and cartouches for signatures.
1800
Simplification of design. The oakleaf decoration was replaced by a zigzag design. Troughton & Simms was one of the last of the mathematical instrument makers who made dials.
1850s
The need for accurate dials decreased as time was transmitted electrically. Francis Barker and Son[5] issued a catalogue of decorative designs.
1880s
Machine (pantograph) engraving started. The Watch Faster/Slower ring was removed being replaced by a simple table then after 1920 a graph.
1900s
Emergence of fake dials, with mottoes and Father Time figures suns and other symbols. These had a false date and spurious makers names: these were sold by companies such as Pearson Page Ltd or Peerless Brass to meet customer demand.[6]

Geometrical markup technique

A horizontal dial, takes the equiangular hour lines of a equatorial dial and projects them onto an plane oblique to the style, the markup simulates this transformation.

The Dom Francois Bedos de Celles method (1760) [7] otherwise known as the Waugh method (1973) [8]

Caveat: These diagrams have not been tested for accuracy. The further north the wider the dial becomes.

Notable examples

Beamish museum
There are two London dials, the first is in 'town' by the Solicitors Office. It is dated 1649. The second is in the garden of Pockerley Manor, this is a dial produced by Spencer, Browning & Co, more noted for their production of sextants and navigational instruments.
St Michael's Mount, Cornwall
There is a dial engraved by Troughton and Simms.

References

  1. Equation is used in the sense of- 'changes needed to make equal'. Style height, and style distance both refer to angles. This is seventeenth century usage.
  1. Leybourn, Art of Dialing (1652, 1669)
  2. Waugh 1973, p. 39.
  3. "Horizontal Dial signed by Nicolas Oursian 1542". Epact. Museum of the History of Science, Oxford. Retrieved 9 July 2015.
  4. "Tycho Wing Astrologer and Instrument maker 1726 - 1776". Twickenham Museum. Twickenham Museum. Retrieved 10 July 2015.
  5. "Francis Barker 1819-1875". Trade Mark London. Trade Mark London. Retrieved 10 July 2015.
  6. Davis 2014, p. 51.
  7. Bédos de Celles 1760, p. 58.
  8. Waugh 1973, p. 38.
  9. 1 2 Waugh 1973, pp. 38-39.

Bibliography

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