Stabilisierter Leitstand

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The forward port SL-8 on the battleship Bismarck, with the sides of the optical rangefinder protruding from the conical protective shield Bundesarchiv Bild 193-18-6-25, Schlachtschiff Bismarck.jpg
The forward port SL-8 on the battleship Bismarck, with the sides of the optical rangefinder protruding from the conical protective shield

A Stabilisierter Leitstand (English: stabilized director post), abbreviated SL, is a fire control element in German World War II era shipborne heavy anti-aircraft defense. One to four SL's were installed on all capital ships of the Kriegsmarine. A Stabilisierte Leitstand measured distance, bearing and height of the target. Angles for bearing and height were taken through an optical sight, whilst distance was measured with a stereoscopic rangefinder. The director post was stabilized on three axes: against pitch and roll so that measurements were taken in a horizontal plane. Stabilization against yaw kept the director post trained on the target even when the ship was turning. The measured data was processed by a director analog computer (German: Rechengerät) to calculate settings for the anti-aircraft battery. The director posts were colloqually called "Wackeltöpfe" (English: waggling pots) by the ships crew.

Contents

A twin 10.5 cm anti-aircraft gun, showing the fuse setting mechanism on the outer side of the protective shield 10.5 cm mount on Prinz Eugen.jpg
A twin 10.5 cm anti-aircraft gun, showing the fuse setting mechanism on the outer side of the protective shield

Operation

The anti-aircraft artillery officer assigned targets to the Stabilisierte Leitstand. On German capital ships the anti-aircraft artillery officer was usually the second artillery officer ( "II AO" ), the first artillery officer ( "I AO" ) being responsible for the main artillery. The II AO selected targets from the anti-aircraft operation post (German: Fla-Einsatzstand), usually situated on the foretop of the ship. The anti-aircraft operation post was equipped with target selection devices (German: Zielanweisegerät, "ZAG" ), that transmitted the target's bearings to the Stabilisierte Leitstand. The ZAG was also stabilized on three axes. If there were multiple director posts and multiple anti-aircraft batteries then the II AO had also a switchboard to configure which battery/batteries a director post was guiding. [1] [2] [3] [4]

The Stabilisierte Leitstand was manned by four people: [5] two aimers for the bearing and height angle sat backwards to the target whilst the control officer and the rangefinder were facing the target. Once a lock on the target was acquired the control officer signalled permission to fire to the director computer. [6] From then on measurements could be fed to the director computer either intermittently or in continuous modus. As aircraft targets shifted range quickly, usually the measurements were fed in continuous modus. [7]

The angles and distance measured by the SL were transmitted to a director computer which calculated the angles for the connected anti-aircraft batteries. Each SL director had its own anti-aircraft director computer. This computer also calculated the fuze settings and triggered the firing clock. The fuze setting mechanism was mounted on the outside of the protective shield for the anti-aircraft battery. The computer gave a horn signal when the round was set and had to be loaded into the gun and gave a bell signal when the gun had to be fired. The gun loaders could load a round on the fuse setting mechanism from inside the protective gun shield, which was open anyway towards the rear of the gun mounting. As the guns could not be mounted in turrets, there was no central ammunition feed. [8] [9] [10] Munition had to be fetched from nearby munition hoists over the open deck which was a risky operation during attack. [11] When the main battery was firing trained at extreme rotation angle, the blast of these guns rendered the operation of any nearby open anti-aircraft battery impossible. [12]

As the heavy anti-aircraft battery was also the secondary armament on cruisers, a SL was also able to lock on sea targets. Depending on the nature of the target a different fire control modus was used: for fast moving small targets the director kept firing in anti-aircraft modus with time fuzes but for larger distances only independend fire was possible, or directed fire with limited assistance of auxiliary elements of the central director computer, used by the main battery. [6] [1]

Versions

Inside the cylinder of the director, showing the access to the director post on top of the cylinder. Bundesarchiv Bild 193-06-2-07, Schlachtschiff Bismarck.jpg
Inside the cylinder of the director, showing the access to the director post on top of the cylinder.

Evaluation

The fact that each gun mounting did not have its own director, the configuration of a parallax point between two near gun mountings, the parallax problem with the Scharnhorst-class aft gun mounting and the fact that Bismarck's forward two pairs of C/31 gun mountings were of a different type than the aft C/37 pair all lead to erroneous explanations about the poor performance of Bismarck's anti-aircraft defense against the attacks by the slow Fairey Swordfish torpedo aircraft. [30] Bercuson&Herwig state that when the C/31 guns fired at the target, the C/37 guns aimed behind the target. [33] Stephen claims the gun directors could not cope with air speeds below 100 mph. [34] Schmalenbach mentions during his explanation of German fire control the presence of many false theories. [30]

The SL was considered a failure: it provided an accurate firing solution but it was too heavy and affected the stability of the ships, and above all it was fragile and broke easily down. Bad weather or a small hit could already cause enough concussion to derail the gimbals and put the director tower out of order. [27] [35]

Fire Control

A twin mounting without its protective shield, exposing the positions of the three aimers for the rotation, elevation and cant axis. SKC33 P1970794.jpg
A twin mounting without its protective shield, exposing the positions of the three aimers for the rotation, elevation and cant axis.

A gun has two parameters to be aimed at a target: the angle to rotate the gun mounting and the angle to elevate the barrel. These angles are taken over the horizon, but a ship is not a stable platform. When the gun platform is not horizontal, then the rotation and elevation of the gun have to be compensated. [36] The compensation for the rotation and elevation are called cant angle (German: Kantwinkel) and tilt angle (German: Kippwinkel) respectively. [36] The calculation of there cant could be simplified as long as elevation was limited, which was the case for sea targets but not for airborne targets. A further complication for fire control was that for seaborne targets, the difference between the observed target and the aiming point were much smaller than that for airborne targets. Hence for seaborne targets the cant and tilt compensations were calculated on the target, whilst for airborne targets compensations were calculated on the aiming point. [37] In order to simplify the specific calculations for airborne targets, the Germans decided to introduce a third axis for anti-aircraft batteries: the cant axis. [36] This axis was situated in the horizontal plane in the gun barrel direction. The cant axis allowed the gun elevation to be perpendicular to the horizon, so that the tilt angle was simply the angle towards the horizon. [38] The anti-aircraft gun had as a consequence three aimers: [11] [39] the rotation and elevation aimer had a periscope to track the target in case of undirected fire, but the cant axis aimer just needed a sight to keep his axis perpendicular to the horizon. The fire control solution for airborne targets made it impossible to use it for turret mounted guns. [40]

From the SL-6 onwards, the director was mounted on an inner platform, connected to the outer cylinder stand with the stabilizing gimbal. The director was pointing to the target, the outer cylinder stand was turned by the fire control computer towards the firing angle, so that the cant and tilt angle could be read directly from the gimbals and fed to the guns. [41]

Other developments

See also

Citations

  1. 1 2 Schmalenbach 2001, p. 69.
  2. Draminski 2018, p. 24.
  3. Schmalenbach 1993, p. 121.
  4. 1 2 Breyer 1991, p. 17.
  5. 1 2 Brennecke 2003, p. 284.
  6. 1 2 Schmalenbach 1993, p. 123.
  7. Schmalenbach 1993, p. 126.
  8. Schmalenbach 1993, p. 156.
  9. Schmalenbach 2001, pp. 68–69.
  10. Breyer 1991, p. 16.
  11. 1 2 Stehr & Breyer 1999, pp. 26–27.
  12. Brennecke 2003, p. 296.
  13. Schmalenbach 1993, pp. 116, 148.
  14. Stehr & Breyer 1999, p. 18.
  15. Breyer 1994, p. 10.
  16. Schmalenbach 1993, pp. 116–117.
  17. 1 2 Stehr & Breyer 1999, p. 19.
  18. Whitley 1989, p. 42.
  19. 1 2 Whitley 1989, pp. 23–24.
  20. 1 2 Schmalenbach 1993, p. 117.
  21. Prager 2002, p. 91.
  22. Whitley 1989, p. 27.
  23. Koop & Schmolke 2014, p. 31.
  24. 1 2 Stehr & Breyer 1999, p. 27.
  25. Schmalenbach 1993, pp. 117–118.
  26. Schmalenbach 1993, pp. 118–119.
  27. 1 2 3 Koop & Schmolke 2001, p. 201.
  28. Schmalenbach 1993, pp. 117–119.
  29. Bercuson & Herwig 2003, p. 33.
  30. 1 2 3 4 5 Schmalenbach 1993, p. 118.
  31. Schmalenbach 1993, p. 129.
  32. NavWeaps.
  33. Stephen 1988, p. 92.
  34. Bercuson & Herwig 2003, pp. 33–34.
  35. Brennecke 2003, p. 287.
  36. 1 2 3 Schmalenbach 1993, pp. 16–17.
  37. Schmalenbach 1993, pp. 109–110.
  38. Schmalenbach 1993, pp. 16–17, 147.
  39. Schmalenbach 2001, p. 68.
  40. Schmalenbach 1993, pp. 113, 117.
  41. Schmalenbach 1993, p. 119.
  42. Stehr & Breyer 1999, p. 15.

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References

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