Dreyer Calculator: Difference between revisions
No edit summary |
No edit summary |
||
Line 1: | Line 1: | ||
The '''Dreyer Calculator''' was a British [[Fire Control Instrument]] that determined the aggregate effect on [[Gun Range|gun range]] attributable to a number of factors. It was invented by [[John Tuthill Dreyer]], brother to Captain [[Frederic Charles Dreyer]] and worked in concert with his brother's [[Dreyer Fire Control Table|fire control table]]. | The '''Dreyer Calculator''' was a British [[Fire Control Instrument]] that determined the aggregate effect on [[Gun Range|gun range]] attributable to a number of factors. It was invented by [[John Tuthill Dreyer]], brother to Captain [[Frederic Charles Dreyer]] and worked in concert with his brother's [[Dreyer Fire Control Table|fire control table]]. | ||
[[File:ProposedDreyerCalculator.jpg|thumb|512px|'''The Dreyer Calculator as Proposed'''<br>Visible are the means of setting the [[Air Density]], [[Range Rate]], [[Plot Range]], and Wind along the line of fire. The [[Range Spotting Correction|range spotting correction]] is read off of scale H. Only the grayish piece N is peculiar to the [[Gun System|gun system]] in use, containing a "Wind Curve" (label obscured in this image by compositing) at the top, which affects the impact of Air Density and Wind on the output and a "Time of Flight Curve" at the bottom which affects the Range Rate's contribution. ]] | [[File:ProposedDreyerCalculator.jpg|thumb|512px|'''The Dreyer Calculator as Proposed'''<br>Visible are the means of setting the [[Air Density]], [[Range Rate]], [[Plot Range]], and Wind along the line of fire. The [[Range Spotting Correction|range spotting correction]] is read off of scale H. Only the grayish piece N is peculiar to the [[Gun System|gun system]] in use, containing a "Wind Curve" (label obscured in this image by compositing) at the top, which affects the impact of Air Density and Wind on the output and a "Time of Flight Curve" at the bottom which affects the Range Rate's contribution.<ref>(G. 4023/08) ''Fire Control, 1908'', Enclosure XIV(b)</ref> ]] | ||
==Genesis and Nature== | ==Genesis and Nature== |
Revision as of 19:06, 26 February 2011
The Dreyer Calculator was a British Fire Control Instrument that determined the aggregate effect on gun range attributable to a number of factors. It was invented by John Tuthill Dreyer, brother to Captain Frederic Charles Dreyer and worked in concert with his brother's fire control table.
Genesis and Nature
The Dreyer calculator was a small calculating board that eventually enjoyed a place on the bulkhead of Royal Navy Transmitting Stations. It calculated several separate factors that would cause the clock range and gun range to differ and summed them together to produce an aggregate spotting correction for range.
It appears that it might have been in service in 1903-1904, as a similar sounding device called a "Range Corrector" is mentioned in The Annual Report of the Torpedo School of that year.[2]
Inputs and Mechanical Design
A wooden case with a carry handle was envisioned, and the full size drawing seems to hint at dimensions of 33cm by 55cm with a depth of 65cm or so.
The calculator was customized to a given Gun System by the choice of which backplate (bearing the range scale) was fitted. Milled curves along these backplates expressed ballistic relationships taken from the Range Table, such as range to time-of-flight.
The inputs were:
- Range Rate
- Air Density (difference from the standard atmosphere of the range table)
- Wind along the line of fire
- Plot Range
By altering the plot range with a large knob, the backplate's "time-of-flight vs range curve" would interact with the range rate and a "wind vs range curve" would influence the degree to which air density and wind along affected the output.
Application and Use
In ships with Dreyer Fire Control Tables, this correction would be entered as a straddle correction.[3] into the Spotting Corrector to be summed with clock range and accrued spotting corrections for range.
As the battle progressed, it was of course common for all the inputs (except air density) to change. It would be a fairly manual task for someone to keep the Dreyer calculator updated and to feed the changing result back to the Dreyer table's spotting corrector. I can imagine that ships lacking a tool similar to the spotting corrector would forego use of a Dreyer calculator and simply rely on spotting to account for these dynamics.
See Also
Footnotes
Bibliography