Wind Dumaresq: Difference between revisions

From The Dreadnought Project
Jump to navigationJump to search
No edit summary
 
Line 4: Line 4:


==Function==
==Function==
The wind dumaresq calculated the amount of lateral deflection the wind's influence would exert on the shell as it flew downrange, allowing a correction to be applied.  It did '''not''' calculate the influence of the wind along the line of bearing;  that function was performed by the [[Dreyer Calculator]] usually mounted on the bulkhead of the T.S..  The wind dumaresq used enemy bearings in relative form (unlike the Mark VI), but lacked a bearing clock, and so the operator had to spend a little more time maintaining the bearing (which he could do by observing the Dreyer table's main dumaresq).   
The wind dumaresq was noteed as being similar to the Mark IV and calculated the amount of lateral deflection the wind's influence would exert on the shell as it flew downrange, allowing a correction to be applied.  It did '''not''' calculate the influence of the wind along the line of bearing;  that function was performed by the [[Dreyer Calculator]] usually mounted on the bulkhead of the T.S..  The wind dumaresq had no bearing clock, and so the operator had to spend a little more time maintaining the to the enemy (which he could do by observing the Dreyer table's main dumaresq).   


The wind dumaresq's dial plate was fixed and the outer brass ring carrying the own heading bar revolved about it.  It was etched in wind speed in feet per second along and across the line of bearing, to a maximum of 100 feet per second.
The wind dumaresq's dial plate was fixed and the outer brass ring carrying the own heading bar revolved about it.  It was etched in wind speed in feet per second along and across the line of bearing, to a maximum of 100 feet per second.
Line 12: Line 12:
The scale for setting own speed on the wind dumaresq extended toward "Forward", and not "Aft" as on conventional dumaresqs.  In this manner, the setting of our own speed on this main bar establishes the "Wind you make" vector, directed toward the ''source'' of the wind rather that the air's ''direction of motion'' in the maddening backward manner in which wind vanes had ever influenced sailors to consider this physical measure.
The scale for setting own speed on the wind dumaresq extended toward "Forward", and not "Aft" as on conventional dumaresqs.  In this manner, the setting of our own speed on this main bar establishes the "Wind you make" vector, directed toward the ''source'' of the wind rather that the air's ''direction of motion'' in the maddening backward manner in which wind vanes had ever influenced sailors to consider this physical measure.


On the front of the wind dumaresq was a knob by which the operator would input the present gun range (which he could obtain by checking the gun range counter on the Dreyer Table).  As he spun this range knob, a cylinder under the dial plate (extending laterally from red 90 to green 90 in the renderings above) would spin, with numbers written on it to indicate the number of knots of deflection that would be needed as a correction.  The number to use would be that in line with the enemy bar pipper.  It would naturally be the placement of the numbers on the drum under the dial plate that recorded the subtle relationship of how far the shell would be displaced as it traveled downrange.  When you consider this, you'll grasp that the amount of this displacement will be a function of the time of flight (which is what the gun range dial is truly expressing, as time of flight is, in turn, a function of gun range) and the component of the "wind you feel" which crosses the line of sight.
On the front of the wind dumaresq was a knob by which the operator would input the present gun range which he could obtain by checking the gun range counter on the Dreyer Table.  As he spun this range knob, a cylinder under the dial plate (extending laterally from red 90 to green 90 in the renderings above) would spin, with numbers written on it to indicate the number of knots of deflection that would be needed as a correction.  The number to use would be that in line with the enemy bar pipper.  It would naturally be the placement of the numbers on the drum under the dial plate that recorded the subtle relationship of how far the shell would be displaced as it traveled downrange.  When you consider this, you'll grasp that the amount of this displacement will be a function of the time of flight (which is what the gun range dial is truly expressing, as time of flight is, in turn, a function of gun range) and the component of the "wind you feel" which crosses the line of sight.
 
The wind's "speed along" the line of fire used as an input by the [[Dreyer Calculator]].  The wind dumaresq operator would call this aloud to the man working the calculator when it changed appreciably.


==Service History==
==Service History==

Latest revision as of 19:08, 26 March 2013

A Wind Dumaresq is a type of dumaresq specially appointed to help factor out the influence of wind on a fire control problem. It was adapted from the Mark IV dumaresq after an initial project called the "Vernon Dumaresq Attachment" was fashioned to demonstrate the idea[1].

The Wind Dumaresq
Notice that own speed is applied front-wise as opposed to backwards as in a normal dumaresq. The cylinder marked with corrections to be applied to deflection is visible in thin slot between words "Left" and "Right" on dial plate.
The Wind Dumaresq
The knob by which gun range was entered. This knob spun the cylindrical member bearing numeric indications of the correction to deflection to be applied. The prominent label as to which gun system this pertains to strongly suggests that the cylinders were common to all types and that the knobs that spun them were the parts machined in a manner that reflected the ballistic properties of the gun system at hand. Furthermore, the type of powder charge being mentioned suggests that the knob could be pulled out and replaced by another for (say) Half Charge firings. The British were clever like that, and used similar swap-outs in their Range Master Transmitters.

Function

The wind dumaresq was noteed as being similar to the Mark IV and calculated the amount of lateral deflection the wind's influence would exert on the shell as it flew downrange, allowing a correction to be applied. It did not calculate the influence of the wind along the line of bearing; that function was performed by the Dreyer Calculator usually mounted on the bulkhead of the T.S.. The wind dumaresq had no bearing clock, and so the operator had to spend a little more time maintaining the to the enemy (which he could do by observing the Dreyer table's main dumaresq).

The wind dumaresq's dial plate was fixed and the outer brass ring carrying the own heading bar revolved about it. It was etched in wind speed in feet per second along and across the line of bearing, to a maximum of 100 feet per second.

A "Wind you feel" arm with a sliding cursor was pivoted on the center of the plate and be oriented and its cursor positioned to record the apparent wind direction and speed in feet per second according to a wind vane and anemometer.

The scale for setting own speed on the wind dumaresq extended toward "Forward", and not "Aft" as on conventional dumaresqs. In this manner, the setting of our own speed on this main bar establishes the "Wind you make" vector, directed toward the source of the wind rather that the air's direction of motion in the maddening backward manner in which wind vanes had ever influenced sailors to consider this physical measure.

On the front of the wind dumaresq was a knob by which the operator would input the present gun range which he could obtain by checking the gun range counter on the Dreyer Table. As he spun this range knob, a cylinder under the dial plate (extending laterally from red 90 to green 90 in the renderings above) would spin, with numbers written on it to indicate the number of knots of deflection that would be needed as a correction. The number to use would be that in line with the enemy bar pipper. It would naturally be the placement of the numbers on the drum under the dial plate that recorded the subtle relationship of how far the shell would be displaced as it traveled downrange. When you consider this, you'll grasp that the amount of this displacement will be a function of the time of flight (which is what the gun range dial is truly expressing, as time of flight is, in turn, a function of gun range) and the component of the "wind you feel" which crosses the line of sight.

The wind's "speed along" the line of fire used as an input by the Dreyer Calculator. The wind dumaresq operator would call this aloud to the man working the calculator when it changed appreciably.

Service History

These instruments were first manufactured and deployed in early 1917, when they were incorporated into Dreyer tables such as the Mark III[2], III*[3] and Mark V as improvements[4]. In other ships, the instrument was probably situated elsewhere in the TS, as it did not really integrate with the Dreyer tables, per se.

The wind dumaresq apparently saw service through World War II, as examples can still be found within the transmitting stations of H.M.C.S. Haida[5] and H.M.S. Belfast.

Footnotes

  1. Schleihauf, Bill. The Dumaresq and the Dreyer Part I. p.8.
  2. Handbook for Capt. FC Dreyer's Fire Control Tables, Plate 40.
  3. Schleihauf, Bill. The Dumaresq and the Dreyer Part II. Figure 29, p.174.
  4. Handbook for Capt. FC Dreyer's Fire Control Tables, Plates 10.
  5. Schleihauf, Bill. The Dumaresq and the Dreyer Part I. p.8.

Bibliography

  • Schleihauf, Bill (2001). "The Dumaresq and the Dreyer, Part I-III." Warship International 38 (1-3).
  • Brooks, John (2005). Dreadnought Gunnery and the Battle of Jutland: The Question of Fire Control. Oxon: Routledge. ISBN 0714657026. (on Amazon.com and Amazon.co.uk).
  • Admiralty, Gunnery Branch (1920). Manual of Gunnery (Volume III) for His Majesty's Fleet, 1920. (G. 13018/10) Copy No. 2 is Ja. 013 at Admiralty Library.