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Siemens D-3 -Flying Barrel-
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Ответов - 5
Flieger: На таком Удет воевал(в саамом конце)
Oldman: Ultimate successor of the S.S.W. D I was the D.III/ D.IV series, which appeared almost a year later, after development through a series of D.II prototypes, and represented a line of advanced and original thought from the drawing-board of Dipl. Ing. Harald Wolff (who was appointed chief designer after Steffen was killed) and his assistant, a young engineer named Hauck. With the relative success of the various D.II prototypes a pre-production order for 20 D.IIIs was placed by Idflieg during the last weeks of 1917; followed by an order for 30 more in February 1918. During April and May some 41 S.S.W. D.IIIs were channeled to the Western Front for operational trials. Most were received by Jagdstaffel 15 of the Jagdgeschwader 11 commanded by Haupt. Rudolph Berthold. A good deal of trouble was experienced with piston seizure, and it became obvious the Siemens-Halske Sh.III engine with which these D.IIIs were fitted was not yet ready for operational service. This shortcoming was seized upon by opponents of the D.III, one of whom had been Hermann Goring, in an endeavor to discredit it completely and have it condemned. Berthold none the less had achieved several victories on the D.III and saw its potentialities; it was largely through his intelligent and objective report on the type that development continued. The Siemens-Halske Sh.III engine was a more powerful, eleven-cylinder development of the earlier Sh.I engine, retaining the same characteristic of crankshaft rotating in one direction at 900 rpm. and the crankcase and cylinders rotating in the reverse direction also at 900 rpm., thereby achieving an actual engine speed of 1,800 rpm. Although advantageous in some respects, this system had its disadvantages. Being a more powerful and bigger engine than the Sh I, the Sh III tended to run a lot hotter, and this effect was magnified by the slow speed at which the cylinders rotated, compared with a normal rotary, resulting in a considerable reduction in the amount of air cooling. Coupled with the low-grade castor oil available to the Germans at this period of the war, recurrent piston seizure after some seven to ten hours running seemed inevitable. The redeeming feature of the engine was that its power did not drop off at high altitude and held good prospects. The D.IIIs were withdrawn from the Front during May 1918 for the fitting of improved engines and some airframe modifications. One such re-engined D.III, with a Rhemag built Sh IIIs, was piloted by the Siemens test pilot Rodschinka, to the extraordinary height of 8,100 m. (26,568 ft.) in exactly 36 min. These aircraft were then returned to operational service during July 1918, when, by virtue of their superb climbing powers, they were used mainly as interceptors by Kampfeinsitzer Staffeln 4a, 4b, 5, 6 and 8 for defense of the Fatherland. Fritz Beckhardt, a friend of the late A. R. Weyl, flew Siemens-Schuckert fighters to good account with Kest (the abbreviated Kampfeinsitzer Staffel) 5, his aircraft being characterized by the painting on the fuselage sides of a large Hakenkreuze (swastika). On a single sortie during September 1918 he managed to shoot down a pair of French Breguet B 14s operating at a height of more than 23,000 ft. The Breguets were by no means sitting ducks, as Ernst Udet was able to testify when he had been shot down by one earlier in the year and was only saved by his parachute. When in December 1917 Idflieg gave the first D.III order, it also requested development of the D.IV and placed an order for three prototypes. A D.V development was similarly requested, but as this was virtually a two-bay version of the D.IV, and offered no improvement, it proceeded no further. Although the S.S.W. D.III had excellent climbing abilities, its maximum level speed was not comparable, being only about 180 km.h. (112-5 m.p.h.). In an endeavor to achieve improved performance a redesigned top wing of new section and reduced chord was experimentally fitted, and in this guise the aircraft was re-designated D.IV. There was also some revision to the cowling arrangement, in which the lower half was almost completely cut away to give additional cooling to the cylinders. The spinner was also impressed with four cooling louvers in order to scoop cooling air on to the crankcase. Apart from these modifications, the two types differed little. In performance an immediate increase in level speed to 118 m.p.h. was obtained and the rate of climb substantially improved. By March 1918 a production order had been given for the D.IV, but it was not until August of that year that it became operational; first deliveries went to Jasta 14 and to the Marine Jagdgeschwader commanded by Osterkamp. Later Kest 2 and Jasta 22 received some D.IVs, but production rate was largely controlled by engine availability, and by the Armistice not all the 280 machines that had been ordered had been delivered. Not even the famous Richthofen Geschwader (after an initial antipathy) had been able to get its belated request for the type fulfilled. The D.III/ D.IV fighter series, the first-and last-S.S.W. original rotary engined design to see service with the German Air Force, differed radically in appearance from all previous production fighters. Its stocky, barrel-like fuselage was of considerable strength and continued the circular section dictated by the engine throughout its length. In the initial production machines the Sh.III engine was completely enclosed in a close-fitting circular cowl, and the four-bladed propeller-of fairly coarse pitch-was fitted with a large diameter spinner. This combination left an insufficient aperture for the entry of cooling air, and later the cowling was drastically cut away in the lower half, thereby exposing the front engine-bearer spider frame. The fuselage consisted of a basic structure of spruce longerons and circular plywood bulkheads additionally reinforced with diagonally mounted ply formers, which, when the three-ply skin was attached, resulted in an extremely strong structure. The panel between the front undercarriage legs was of sheet metal liberally endowed with louvers to allow the exhaust to escape; the top panel between the center-section struts was similarly covered. Handgrips adjacent to the cockpit and tail plane were fashioned by the simple expedient of cutting away a small rectangle of the plywood skin and exposing the longeron, which could be grasped. All fin surfaces were of wooden framing and constructed integrally with the fuselage, and were likewise plywood skinned. The vertical fin was of asymmetrical section, which helped to counteract a tendency to swing on take-off as a result of the considerable torque moment of the big engine. The balanced, angular rudder and the one-piece balanced elevator were of welded steel-tube construction and covered with fabric. In the D.III the upper wing was of considerably greater chord than the lower. Both were based on twin hollow box-spars, and the plywood ribs with pine capping strips were closely spaced and, with the plywood sheeting of the leading edge back to the front spar, dispensed with the necessity for false ribs to preserve the aerofoil section. In the D.IV an improved aerofoil section was introduced and the upper wing reduced in chord to 1 m.: the same as the lower wing. Overhung, horn-balanced ailerons, of parallel chord (those of the D.IV were slightly tapered towards the tips) were fitted at all four wingtips and imparted a brisk rate of roll to the machine. They were operated through torque tubes in all wing panels by a positive linkage which made it unnecessary for them to be linked externally by either struts or wires. As in the steering surfaces, they were of welded steel tube and covered with fabric. A conventional vee-type undercarriage was fitted, although the vee struts were fabricated from alloy tube instead of the more usual steel tube, and were wrapped with alloy sheet fairings. The wheels were sprung with spiral steel springs. A substantial ash tailskid was hinged to the under fin and bound at its upper end with elastic cord. Interplane struts were of wood and wrapped with fabric for additional strength, as were also the center section struts. Flight characteristics of the series were such as to demand constant vigilance from the pilot; there was no stall warning and a spin rapidly developed. Nevertheless, although with such a powerful engine the torque was considerable, it could be handled by any pilot of good average skill. The counter-rotation of the crankshaft and cylinders did nothing to lessen torque (as has been supposed), but did compensate the gyroscopic reaction. This was extremely beneficial, as it gave no fore-and-aft change of trim between right- and left-hand turns, as was normally the case with rotary-engined fighters. Without doubt these Schuckert machines were the best German fighters to reach operational status, yet they were probably the least known. For some odd reason, manufacture of the type did not cease until the summer of 1919, and one D.IV survived in Germany until as late as 1926. D.III D.IV Power Plants: One 160 h.p. Siemens-Halske Sh III and IIIa 11 cylinder geared rotary engine. Dimensions: Span 8.43 m. (27 ft. 7 3/8 in.) 8.35 m. (27 ft. 4 3/4 in.) Length 5.7 m. (18 ft. 8 1/2 in.) 5.7 m. (18 ft. 8 1/2 in.) Height 2.8 m. (9 ft. 2 1/4 in.) 2.72 m. (8 ft. 11 in.) Area 18.82 sq.m. (203.5 sq.ft.) Area, 15.12 sq.m. (163.25 sq.ft.) Weights: Empty 534 kg. (1,175 lb.) 540 kg. (1,190 lb.) Loaded 725 kg. (1,595 lb.) 735 kg. (1,620 lb.) Performance: Max speed 180 km.h. (112.5 m.p.h.) 190 km.h. (118.75 m.p.h.) Climb to: 1,000 m. 1.75 min. 1.9 min. 2,000 m. 3.75 min. 3.7 min. 3,000 m. 6.0 min. 6.4 min. 4,000 m. 9.0 min. 9.1 min. 5,000 m. 13.0 min. 12.1 min. 6,000 m. 20.0 min. 15.5 min. Ceiling 8,000 m. 8,000 m. Duration 2 hr. 2 hr. Armament: Two fixed Spandau machine guns firing forward.
Flieger: А по русски(або по українськи)можна???
Oldman: Flieger пишет: А по русски(або по українськи)можна??? Можно, но дорого обойдется. Поставьте себе в компьютер PROMT и переводите.
Flieger: Ладно,так сойдет.
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