333 546 Жалоба Опубликовано: 11 л та же Элка, только в профильНе дверь, а именины сердца. И вообще, счастье моторного флоттера. Поделиться сообщением Ссылка на сообщение Поделиться на других сайтах
mmoustaf 101 Жалоба Опубликовано: 11 л Нормальная дверь. Там вон контур грузовой виден, так что у моторного все ок Поделиться сообщением Ссылка на сообщение Поделиться на других сайтах
AveE 7 Жалоба Опубликовано: 11 л а тем временем Аэропракт начал выпускать палубную авиацию... угу. представил себе посадку на НЕ нагруженный газовоз. у него раскачка до 50 метров ) Поделиться сообщением Ссылка на сообщение Поделиться на других сайтах
333 546 Жалоба Опубликовано: 11 л Там вон контур грузовой виден, так что у моторного все окКонечно, можно пойти и теми путями, каких мы не ищем. Но тогда уж идти до конца: наварить поручень и подножку на полную катушку — так, чтобы моторный глядел на КВС-а в профиль. И redline тогда будет уже не поперечный а продольный — оставшиеся внутри должны будут прижиматься к правому борту без права на холяву, а в момент отделения флоттеров… Поделиться сообщением Ссылка на сообщение Поделиться на других сайтах
mmoustaf 101 Жалоба Опубликовано: 11 л Жестокий вы человек, профессор... Но в наше время по-другому нельзя Поделиться сообщением Ссылка на сообщение Поделиться на других сайтах
SkyWard 15 Жалоба Опубликовано: 11 л Британский истребитель Hawker Sea Fury FB 10 Поделиться сообщением Ссылка на сообщение Поделиться на других сайтах
canopyFFpilot 145 Жалоба Опубликовано: 11 л элка посимпатичнее выглядит как-то) чисто внешне)) Поделиться сообщением Ссылка на сообщение Поделиться на других сайтах
lexa 1229 Жалоба Опубликовано: 11 л элка посимпатичнее выглядит как-то) чисто внешне)) А у Бе-шки характеристики лучше... И тема с трансмиссией была бы очень офигенна Поделиться сообщением Ссылка на сообщение Поделиться на других сайтах
mmoustaf 101 Жалоба Опубликовано: 11 л Британский истребитель Hawker Sea Fury FB 10 Вообще-то FB XI (Fury I) для Ирака Самолет на фото это Sea Fury FB 11 серийный номер 37733 Он построен в 1949 году А 10-ки, коих было не более 50 штук все были построенв с 1946 по 1947 год. Из них 25 участвовалов различных испытательных программах. После аварии его перекрасили под Sea Fury WH589 Самое смешное состоит в том, что оригинальный Sea Fury WH589 (серийный номер 636336) жив поныне, только переделан в гоночный самолет Поделиться сообщением Ссылка на сообщение Поделиться на других сайтах
_nw_ 1537 Жалоба Опубликовано: 11 л А у Бе-шки характеристики лучше...А модификация десантная с люком в полу прошла? Так то с такой дверью как нарисовано толку в характеристиках то? Трансмиссия если интересной была почему в других пепелатцах широко не реализована? геморра больше чем профита? Поделиться сообщением Ссылка на сообщение Поделиться на других сайтах
mmoustaf 101 Жалоба Опубликовано: 11 л Трансмиссия если интересной была почему в других пепелатцах широко не реализована? геморра больше чем профита? Почему не реализована? В США с этим игрались в 30-х конце 40-х годов Экономически невыгодно. Затраты в производстве и при проектировании высоки. А выхлоп почти нулевой. Поделиться сообщением Ссылка на сообщение Поделиться на других сайтах
canopyFFpilot 145 Жалоба Опубликовано: 11 л как то ппц вообще...)) а это уже в аномальную зону надо) Поделиться сообщением Ссылка на сообщение Поделиться на других сайтах
Alkinoy 56 Жалоба Опубликовано: 11 л на первом видео даже облака дыбом стали. из солидарности наверное... как много еще людей, которые замирают от фейков в интернете Поделиться сообщением Ссылка на сообщение Поделиться на других сайтах
dobrobelko 145 Жалоба Опубликовано: 11 л Ну и это. Как можно перепутать C-5 с C-17. Учите матчасть. А вот реальный инцидент с глобмастером летом прошлого года, сел по ошибке в мелком муниципальном аэропорту (если не ошибаюсь, полоса около 3400 футов всего) вместо военной базы: Поделиться сообщением Ссылка на сообщение Поделиться на других сайтах
_nw_ 1537 Жалоба Опубликовано: 11 л а это уже в аномальную зону надо)почему? вполне адекватное владение фотошопом, достойный уровень) Поделиться сообщением Ссылка на сообщение Поделиться на других сайтах
Vedmid 3 Жалоба Опубликовано: 11 л " "Летающие Ботинки" ("Flying Shoes")"Прототип платформы, известный под названием "Летающие Ботинки" ("Flying Shoes") был разработан инженером НАСА Чарльзом Зиммерманом (Charles Zimmerman) в конце 40-х годов. Зиммерман разработал теорию о том, что классическая схема вертолета с несущим винтом сверху - недостаточно стабильна, и предположил что врожденные человеческие способности к балансировке являются достаточными для управления небольшим летательным аппаратом. Он ввел термин "кинестетическое управление (kinesthetic control)". Дополняя "кинестетическую теорию" Зиммермана, исследовательское поддразделение Хиллера (Advanced Research Division, ARD) оборудовало платформу в виде канального вентилятора двумя соосными винтами противоположного вращения, с приводом от 4-х двухцилиндровых оппозитных 2-х тактных двигателей мощностью 44 л. с. каждый. Предполагалось, что около 40% подьемной силы будет создаваться за счет геометрии канала, и оставшиеся 60% - тяга несущих винтов. 17 сентября 1953 г. Хиллер Хеликоптерс (Hiller Helicopters) подписала контракт с НАСА об использовании исследований Александра Сатина (Alexander Satin) в области канальных вентиляторов (ducted fan) и "кинестетической теории" Зиммермана. В январе 1954-го года в исследовательском подразделении Хиллер Хеликоптерс начались работы по реализации проекта. Девятью месяцами позднее подразделение ARD, работавшее в строгой секретности, представило первый проект - model 1031 Flying Platform. 27 января 1955 года состоялся первый полет Летающей Платформы, вошедший в историю как первый полет человека на летающм аппарате вертикального взлета и посадки, созданном на основе канального вентилятора. В апреле 1955-го года завеса секретности была снята. В 1956 г. Хиллер Хеликоптерс подписала контракт с ВС США, и произвела для них две платформы большего размера. В Армии США они получили название VZ-1 Pawnee. Армейские аппараты имели практически идентичную конструкцию, но были больше по размерам - диаметр 8 футов (2.44 м.) (против 5-ти у прототипа (1.52 м.)), высота - 7 футов. Пустой вес - 180 фунтов (81.65 кг.). Так же контракт требовал установки третьего двигателя. Вес, добавленный установкой третьего двигателя, очень негативно повлиял на возможность управления аппаратом за счет "кинестетики", проще говоря - изменения центра тяжести пилота. Модифицированная версия большого аппарата с удлиненной рубашкой канала (VZ-1E) закончила свою карьеру в Принстонском Университете как учебное пособие для изучения канальных вентиляторов. Поделиться сообщением Ссылка на сообщение Поделиться на других сайтах
mmoustaf 101 Жалоба Опубликовано: 11 л В 1947 году"Вот патент"March 25, 1947. c. H. ZIMMERMAN 7, HELICOPTER FLYING APPARATUS Filed Aug. 10. 194:5 4 Sheets-Sheet 1 INVEN TOR. HTTORN Y HELI' COPTER FLYING APPARATUS Filed Aug. 10, 1943 4 Sheets-Sheet 2 'IIIIII" hTTOR/VE March 25, 1947. c, zm A 2,417,896 HELICOPTER FLYING APPARATUS Filed Aug. 10. 1943 4 Sheets-$heet 3 March 25, 1947. c ZMMERMAN 2,417,896 HELICOPTER FLYING APPARATUS Filed Aug. 10, 1943 4 Sheets-Sheet 4 Patented Mar. 25, 1947 UNITED STATES PATENT OFFICE 16 Claims. This invention relates to a novel method of and apparatus for propelling a person through the air. The apparatus is. more particularly, of a type arranged to be worn by or applied to the person using the same, as distinguished from a vehicle, ship, machine or conveyance adapted to carry one or more persons. An object of the invention has been to provide suitable motive power and suitable lifting and direction control surfaces or instrumentalities which may be, in effect, applied to or worn by a person desiring to be propelled through the air. In attaining this object, I have devised a power and propeller unit which, in the preferred form of the invention, comprises a pair of interconnected members which may be attached to the feet of the person to be propelled or on which such person may stand. This unit is of such construction that each of the interconnected members is under the control of one of the feet of the user, the two members being thus independently maneuverable to a certain extent, although they are, as indicated, connected together to maintain the same in properly spaced and assembled relation. The power unit is the major part of the equipment attached to or worn by the flyer and it may, if desired, be the only flying equipment employed so long as it embodies, in itself, certain air foil surfaces. Preferably, however, a number of accessory devices embodying lift-producing surfaces are utilized to facilitate flight, to assist in the control of the movements of the flyer, and to insure his safety. Briefly, the invention contemplates the application of lifting and propelling forces to the feet of the flyer, the use of the apparatus being such that the flyer is first lifted vertically as he stands more or less erect on the power unit and after he has attained a suitable elevation he inclines his body forwardly in the direction he desires to travel. He may continue to rise for a while, along with the forward motion, and then gradually assume a substantially horizontal position as he travels toward the desired goal. Upon approaching the goal, the flyer may gradually reduce his forward motion and the lifting action of the power unit, in one or more of a variety of ways, and at the same time may swing his feet downwardly or flex his knees to assume firstly a sitting posture and then a. substantially vertical position again after which he may gradually ease himself toward the ground. The take-off, flight and landing of the flyer is in many respects similar to the operation of a helicopter. A very limited space is sufllcient for take-off and landing purposes. However, as distinguished from a hellcopter, the propelling means applies a pushing force to the feet of the flyer rather than a pulling force from above and there is no integrated, steerable machine in which the flyer may sit, for example. Other objects, features and advantages of the invention and its specific nature will appear from a detailed description of an illustrative form of apparatus and its mode of use which will now be given in conjunction with the accompanying drawings, in which: Fig. 1 is a view partly in front elevation and partly in section, showing the improved flying apparatus attached to the flyer. Fig. 2 is a view, largely in side elevation but partly in section, of the apparatus and the flyer shown in Fig. 1. Fig. 3 is a plan view of the main portion of the flying apparatus, taken alon the line 3-3 of Fig, 2. Fig. 4 is a. top plan view of the flyer, omitting, however, a showing of the apparatus attached to the flyers feet. Fig. 5 is a diagrammatic view illustrating the position of the flyer at various stages in the course of flight. Fig. 6 is a vertical sectional view through a modified form of apparatus attached to the flyers feet. Fig. '7 is a top plan view of the modified construction of Fig. 6. Fig. 8 is a detail view, largely in section, of one of the control means adapted to be grasped by the fiyer. Fig. 9 is an enlarged detail view, in section along the line 99 of Fig. 8, showing a releasable detent for the control means. Fig. 10 is a detail view, partly in section, showing a modified form of connection between two manual controls which may be employed, if desired. Fig. 11 is a bottom view of a. portion of a variable pitch propeller which may be embodied in each of the Venturi rings. Fig. 12 is a vertical, sectional view, along the line l2--l2 of Fig. 11. Fig, 13 is a detail view, in section along the line l3-l3 of Fig. 12, showing a portion of the pitch varying means, and Fig. 14 is a detail view, in side elevation, of the pitch varying means of Fig. 12. Referring now particularly to Figs. 1 to 4 of the drawings, the preferred form of the invention comprises a pair of connected Venturi rings l and H. These rings are held in properly spaced relation and against rotation about their axes by links or rods l2 and II which are attached to the outer surfaces of each of the rings at diametrically opposed points by means of swivel connections I. These connections may be of any suitable mechanical construction enabling universal angling movements between the rods l2 and I3 and each of the Venturi rings. Thus, each of the rings may be rocked freely in all directions with relation to the other while main-' taining substantially the same relative spacing between the rings. The outer and inner surfaces of the rings are preferably so formed and related that a longitudinal section through the wall of each ring is of proper air-foil configuration. Within each of the Venturi rings there is mounted, by means of a spider frame l5 having a central supporting ring or cylinder IS, an engine Or other suitable source of motive power I1. The arms of the spider are suitably attached to the Venturi ring by means of rivets It or other suitable securing means. Engine I! may be of any suitable construction, say, for example, a two-cylinder, four-cycle internal combustion engine of conventional type or it may be a power means of any other appropriate construction, capable of developing high power in relation to its weight. Preferably, each engine should be capable of developing about 40 H. P. and each should weigh only about 50 lbs. If desired, a more powerful engine may be utilized but substantially the indicated ratio of power to weight should be maintained. A gasoline turbine meeting these requirements may be employed in lieu of the reciprocating engine illustrated. The supporting ring or cylinder l6 carries appropriate bearings for a crank shaft connected with the pistons of the internal combustion engine. The crank shaft projects below the lower bearing and has secured thereto, or otherwise operatively connected therewith, a propeller IQ of appropriate construction. This propeller may either be of fixed pitch or variable pitch. The pitch may be subject to variation automatically, either partly or fully in known manner, or it may be under manual control. If the propeller is of the manually variable type, any known and suitable form of control system may be employed. One arrangement which may be used for this purpose is shown in Figs. 11 to 14, inclusive, and will be hereinafter described. By way of illustration, the propellers may be of the three-blade type and about 3 feet in diameter. Each is preferably provided with only a slight clearance from the inner surface of its Venturi ring. At the top of each Venturl ring there is provided on a plate 20, preferably mounted on the spider 15 or the ring I B, a foot-supporting and retaining formation 2i on which the fiyer may place one of his feet. The root-support is preferably inclined at an appropriate angle, as indicated in Fig. 1, so that the flyer, assuming the stance indicated, may have flat surface engagement with the support without bending his ankle. This enables transverse rocking of the ring in either direction by proper flexing of the ankle. Moreover, it permits a straight pressure to be exerted by the fiyer through his legs directly against the foot support and the arrangement is preferably such that the line of pressure so exerted by each leg will intersect the line extending through the axes of the front and rear ball Joints I4 01' the related Venturi ring. Assuming 4 that the rings are slightly more than 3 feet in diameter. so as to accommodate 3 foot propellers, the flyers feet will need to be spread slig y less than 3 feet apart in assuming the stance indicated in Fig. 1. This is not an uncomfortable stance for a man 01' average height. The foot supports 21 may either be provided with suitable straps or other means for clamping the flyers feet firmly thereto or, if desired, the foot supports may have permanently and firmly secured thereto boots or shoes of suitable construction and adapted to fit snugly and comfortably the feet of a particular flyer. In the latter case it will be understood that the apparatus constructed in accordance with the invention will be a personal device intended for use by a, definite individual, much as a pair of skates having permanently connected shoes. Gasoline or other fuel for the engine may be carried in a tank strapped to the back of the fiyer. Preferably the tank will be formed as a pair of wings 22 and 23 of suitable construction, these being secured to the flyer by means of straps 24 over the flyers shoulders and a strap 25 around the fiyers waist. The wings 22 and 23 may be formed as an integral unit or may be otherwise connected and should be properly shaped and so disposed as to provide or constitute air-foils which will have a definite supporting and lifting action as the wearer of the apparatus is in flight, in a manner to be more fully set forth hereinafter. A pair of outlets may be provided along the lower edges of the wings 22 and 23 and from these outlets flexible hose lines 28 may lead to carburetors 21 mounted upon the engines within the Venturi rings. A valve or pet-cock 2611 may be provided in each of the hose lines 26, preferably at its point of connection with the tank structure, to cut off the supply of fuel when desired and to enable manual regulation of the supply. From the carburetor 21 in each Venturi ring the explosive air-fuel mixture may be led through a manifold 28 to the intake ports of the cylinders of the associated engine. Each cylinder may be provided with a short exhaust pipe 29, preferably arranged to direct the exhaust downwardly through the propeller 19. A magneto 30 may be employed for ignition purposes, although other suitable ignition means may be provided, if desired. For the purpose of controlling the operation of the engines, a pair of flexible push-pull controls 3| and 32 of any suitable form, such as the Bowden wire type, may be provided. If desired, each of these controls may be connected with the valve operating means of one of the carburetors 21, as shown in Fig. 1. so that the speed of the propellers may be varied independently at all times. Thus, control 3| may regulate the speed of the engine in Venturi ring Ill and control 32 may regulate the speed of the engine in ring II. By varying the speed of one engine in relation to the other, the movements of the fiyer may be contiolled, as will be explained more fully hereina ter. The operation of the push-pull control members will be readily understood. A plunger 33, Fig. 8, normally urged outwardly from its supporting socket or hand grip 34 by means of a spring at, may be pressed inwardly against the action of the spring by the thumb or finger of the iiyer. The inward movement or the plunger is transmitted through the series of push elements 33b and lie within the flexible sheath or casing 33:1, to the valve control means on the carburetor so as to regulate the flow or the air-fuel mixture into the manifold 23. Outward movement of the plunger, either by the action of spring 33a or by the force exerted by the thumb or finger, will act through the flexible, inner pull cable 33a to shift the valve control means in the opposite direction. II desired, the plunger 33 may be provided at its outer end with a small ring, or a thimble-like socket, in lieu of the button shown, adapted to receive the thumb ior movement of the plunger positively in both directions. Outward movement, however, may nevertheless be assisted by the spring 33a. Control cables ill and 32 should be of sulllcient length to give the flyer lull freedom. or movement of his arms, for balancing purposes, while retaining the controls in his hands. Provisions of any suitable character may be made for attaching the controls to the uniform or flying suit of the fiyer, or to one of the various straps about his body, whenever the flyer desires to use one or both hands for some other purpose or when he is traveling at uniform speed in horizontal flight. Thus, a clip of any appropriate form may be provided on each control, at or adjacent the hand grip, for ready attachment and detachment to and from one of the belts. A detent is preferably provided for retaining the plunger 33 of each control in any position in which it has been set. This detent may suitably be in the form of a small plate 34a slidably mounted in the hand grip 34 adjacent its outer end. The plate has an elongated slot 34b through which the plunger 33 passes and at its lower end it carries a pin 34c having a loose fit in a recess 39d in the wall of the handgrip. A spring 34c, within this recess, surrounds the pin 34c and, acting between an enlarged portion of the plate and a plug 34! which closes the lower end of recess 34d, serves to urge the plate upwardly, Fig. 9. The frictional engagement between the lower edge of the slot 34b and the under surface of the plunger 33 will serve to retain the latter in any adjusted position. In this connection it will be observed that the plate 34a will be rocked slightly by the acting of spring 33a, as permitted by the loose fit of the pin 340 in recees 34d, to bring about an effective binding action. When it is desired to release or re-adjust the plunger 33, the plate 34a may simply be pressed inwardly slightly by a. finger or by the squeezing action of a portion of the hand in which the handgrip is held. In Fig. 10, a portion of a modified control arrangement is shown in which the control held in one hand may simultaneously vary the speed of both engines while the control in the other hand may produce a differential action between the two engines. For this purpose the outer casing or sheath of the righthand control 3Ia may be connected with a small housing 33] while the casing of the lefthand control 32a may extend into this housing through an elongated opening 33g, which permits slight, relative up-and-down movement. A cap member 33h secured to the end of the casing of control 32a is attached to the push-pull means 331' of control 31a. Pivotally attached to the cap member is a T-shaped member 331, the laterally extending arms of which are connected with push-pull plungers 33k and 33m, respectively, associated with controls 3Ib and 32b whose casings are secured to the housing 33 These latter controls may be connected with the valve-operating means of the respective carburetors for regulating the speeds of the two engines. The push-pull means of the control 32a is connected with the vertical arm of the T-member 331 and rocks the latter either clockwise or counter-clockwise, as desired, in response to manipulation of the control plunger. If member 331 is rocked counter-clockwise, it will tend to increase the speed of the engine connected with control 3Ib and decrease the speed of the engine connected with control 3211. Rocking of member 337' in a clockwise direction will produce the opposite eflect. Thus, the control in one hand will cause the engine to change speed in unison while the control in the other hand will produce a differential action between the two engines. As hereinabove indicated, any suitable means, either manual or automatic, may be employed for varying the pitch of the propellers. If manual means is employed, this may, if desired, be placed under control of one or both of the controls 3i and 32. For example, the pitch of each propeller may be varied as the speed of its engine is varied, i. e., both speed and pitch may be increased or decreased simultaneously. Alternatively, one of the controls may regulate the speed of the two engines simultaneously while the other control may regulate the pitch of both propellers. However, it will ordinarily be desirable to vary the pitch of the propellers at only infrequent intervals, as in going up to the higher speeds of flight and in slowing down from high speeds. Accordingly, it is considered preferable to provide a separate manual control for the propeller pitch which is independent of the two hand controls 3| and 32. Such separate control may be of the same character as the controls 3| and 32 but may have its manually operable end attached in any suitable manner at an appropriate point on the front of the flyers uniform or suit. Referring now to Figs. 11 to 14, inclusive, suitable mechanism is illustrated for varying the pitch of the propeller under manual control. As shown, the propeller may comprise a central spider member I9I a. hub portion of which is mounted upon the engine shaft Ill and secured for rotation with the latter. Each arm of the member I9! is formed as a socket arranged to retain a ball-bearing I92 in which is iournaled the inner end I03 of a propeller blade I94. Secured to the journal portion I93 of each propeller blade I94 is an arm I95 which is connected by a link I96 with a cylindrical member I91. This member carries the inner raceway of a ball-bearing unit i 98, the outer raceway of which is carried by an annular member I99. It will be understood that member I9! is connected with all three of the propeller blades I 94, shown in Fig. 11, by means of three of the links I90. At diametrically opposite points the annular member I99 is provided with radially projecting lugs or ears 200. which are connected by links 20| with the ends of a pair of laterally extending arms 202 forming part of a yoke 203 (Fig. 13) pivotally supported at 20-4 upon an arm or bracket 205 secured to or forming part of the housing 206 of the engine. An arm 20! of the yoke 203, which extends outwardly from the pivot 204, is suitably connected with the push-pull means 208 of the flexible control whose casing 209 has its end secured to the arm or bracket 205. It will be seen from the foregoing that upon inward pressure of the control plunger, similar to plunger 33 of Fig. 8, the push-pull means 200 will be depressed (Fig. 14) and will rock the yoke 203 in a counter-clockwise direction. The yoke then acting through links 20! will shift the bearing ring I99 upwardly acme (Figs. 12 and 14) and the ring will carry with it the inner member I91. The latter, acting through links III, will rock the arms I95 and thus rotate the three propeller blades Nil to vary their pitch. It will be understood that through the provision of a detent similar to that shown at a in Figs. 8 and 9. the propeller blades may be held in arm position to which they may be adjusted by the control means. The flyer is preferably equipped with a para.- chute 35, which may be worn in any conventional way by the fiyer. It may, for example, be strapped to his back outside of the fuel tank members 22 and 23. Any conventionalarrangement for retaining the parachute, such as straps 88, may be employed and these straps may pass around parts of the fiyers body. The arrangement is preferably such, also, that connections are provided to the parachute directly from the Venturi rings and the fuel tank so that the load of these parts will not be borne by the flyer when the parachute is put into use. Straps 31 may, for example, be employed to connect the Venturi rings directly with the parachute. Other similar straps may connect the air-foils or fuel tank directly with the parachute. The arrangement may, in fact, be such that the flyer himself is not directly suspended from the parachute but is carried through the intermediary of the fuel tank or other parts of the apparatus which are connected, as indicated, directly with the parachute. Any suitable arrangement may be provided for releasing the parachute. An ordinary rip cord may be employed, if desired, although, preferably, to expedite the release and opening of the parachute, it is eifected by a small explosive charge which may be set off electrically or otherwise by striking a button 88 on the flyers chest. In order to enable the flyer to withstand the air pressure and the chilling effect created by his rapid flight through the air, he is preferably garbed in a wind-and-water resistant uniform adapted to flt snugly over warm undergarments of any appropriate type. If desired. the outer garment or uniform may be provided with suitable stiflening members, such as light metallic or plastic shields or caps or the like, adapted to fit over different portions of the body, such as the shoulders, arms, chest and so on. Such stiffening members, if employed, would enable the better streamlining of the flyer's body and,thus materially reduce his resistance to flight. Preferably, also, the flyer should wear a headgear 39, which may similarly be shaped for streamlining purposes and which preferably includes a transparent, mask portion l0, formed of Plexiglas or the like, adapted to fit over the face of the flyer. Suitable openings should be provided, or other provisions should be made, for allowing the circulation of air within the helmet without subjecting the interior of the helmet to either undue pressure or a suction action. The action of the lungs of the flyer may then be substantially normal even though he is moving at a rapid rate through the air. Suitable small wings or airfoils 4| may be provided at the sides of the headgear to produce a slight lifting action as the flyer moves through the air in a substantially horizontal position. The angle of the air-foils 4| should be such that the lift imparted to the head will simply relieve the strain on the flyer's neck muscles, which would normally be encountered in holding his head up, against the action of gravity, while stretched out in a substantially horizontal position. Referring now to Fig. 5. there are illustrated various positions assumed by the flyer in the course of taking off, normal flying, and landing. In taking 03. as indicated at 4 the flyer stands erect with his feet apart, in the manner shown in Fig. 1, and the engines are started. Any suitable means, of light construction, may be employed for self-starting purposes. For example, a small compressed airoperated motor may be provided for each engine or a small explosive cartridge may be provided for the purpose. However', if desired, the engines may simply be started by manual whirling of the propellers. The flyer may simply grasp the ends of the blades for this purpose or a small disk or pulley may be provided on the engine shaft, such pulley being adapted to receive a starting rope similar to that employed in starting outboard motors. As a further alternative, a kicker of the type used on motorcycles may be employed. When the engines are properly warmed up, the flyer may step up their speed to the point where a sumcient lift is created by the propellers to raise th flyer, with his load, from the ground. If manually controlled, adjustable propellers are employed, these may be suitably rotated to bring about an increased lifting action. After the flyer has attained a suitable elevation, as indicated at 43 in Fig. 5, he may begin to tilt the Venturl rings somewhat in the manner shown at 44. For this purpose the flyer may find it desirable to bend his knees and assume a somewhat squatting position, pressure being exerted through the toes to depress the forward portions of the Venturi rings. Gradually the rings may be swung more and more until their axes are substantially horizontal, and the flyer may then stretch out in a nearly horizontal position, as indicated at 45 in Fig. 5. It should be noted, however, that the flyer is not strictly horizontal; his body is inclined upwardly at a sufficient angle to provide a desired lifting force as a result of his high speed movement through the air. As the flyer approaches his destination, he may slacken his speed and by again flexing his toes and ankles to tilt the Venturi rings, he may assume the position indicated at 46, at the same time reducing his speed of movement by proper control of the engines or the pitch of the propellers or both. He may then gradually swing back to the vertical position, as indicated at 41, which may be described as the hovering position, and then by proper control of the engine speed, the flyer may gradually drop by gravity to the ground, as indicated at .8. It should be noted that the Venturi rings l0 and H serve a number of diflerent purposes. In the first place, they provide a protective enclosure for the propellers so as to prevent engagement of the propellers with the ground or with any other obstacle which might damage them. This purpose could, of course, be served in a variety of different ways, as by means of simply three or more vertically disposed rods or legs connected in some suitable way with the central supporting ring or cylinder ill. Thus, each of the spider arms I! might carry a rod or leg at its end extending parallel with the axis of the engine shaft a sufficient distance to provide the function set forth. However. a second important purpose of the Venturi rings is to provide a suitable air-foil or lifting and stabilizing surface capable of maintaining the proper lift on the engine units attached to the fiyers feet as he is traveling horizontally through the air The axis of each of the Venturi rings will not at this time be strictly horizontal but will be inclined. by proper movement of the flyer's legs and ankles, to impart the desired lifting effect. If each of the rings is approximately 3 feet in diameter and 1 foot deep. it will be seen that each provides a lifting surface of approximately 6 square feet. i. e.. the projected area of both theupper and lower halves. Surfaces of similar area under the control of the flyers' legs and ankles could. of course. be provided in other ways. as by wing or vane surfaces of entirely different shape. For example. in lieu of a ring surrounding each propeller. there might be provided a square or rectangular box-like structure. This could serve the first-mentioned protecting function also. Or. if desired. a single flat wing or vane might be provided either above or below the engine and propeller. However, an advantage of the construction illustrated is that it insures a constant how of air at high velocity through the rings by the action oi the propeller. regardless of the actual air-speed oi the fiyer. This insures unstalled flow through and about the ring even though the inclination of the airfoil sections to the direction of motion is such as would otherwise cause a breakdown of the flow or stall. Moreover. the rapid movement of air through the rings insures a proper cooling action upon the motors regardless of the actual speed of fli ht. A third important purpose or advantage of the Venturi ring construction is that it somewhat enhances the lifting effect of the propellers. This improvement in the lifting effect of the propellers is increased as the depth or length of the rings is increased in relat on to their diameter. It may be qui e substantial if the depth of the rings is made great enough in relation to their diameter. In designing a particular unit in accordance with the invention. it becomes a ouestion. therefore. whether the improved efficiency due to the use of dee er ring more than offsets the extra weight inc dent to such use. For certain purposes and under certain circumstances. each construction may have its advantage over the other. In the use of the improved construction. the flyers sense of balance and his natural reflexes to any toppling sensa ion will assist him in his control of the apparatus. It will be noted that there is extreme flexibility in its control due to the ability of the fiyer to shift each of the Venturi rings angularly in any direction with respect to the other. The control and flexibility of the apparatus is increased. moreover. if the connections from the control cables 3! and 32 are such that the speed of each engine may be varied independently of the other and the pitch of each propeller may be similarly varied independently of the other. As the fiyer is taking oil, and also as he is about to land. it is desirable to maintain the two Venturi rings with their axes along substantially vertical lines. It is also desirable to maintain substantially equal lift in the two rings. preferably by establishing equal engine speed and equal propeller pitch for the two units. However, when the flyer is in forward flight, and particularly when his body is horizontally disposed. as indicated at 15 in Fig. 5, the course of the flyer may be readily varied in any one of a number of different ways. For example, assuming that the fiyer wishes to turn in a clockwise direction about a vertical axis. he may, by a sidewise tilting of one or both of the Venturi rings. produce a steering effect similar to that obtained from a rudder. Turning in this manner may be accomplished without varying the speed of the engines or the pitch of the propellers. 0n the other hand. the same efiect may be obtained by increasing the speed of the propeller within the ring attached to the fiyer's left foot. Should the fiyer wish to roll about a horizontal axis while in the position of fiight dndicated at 45. so as to produce a banking efleet in making a turn to the right. for example, he may simply tilt the ring attached to his left foot to a slightly greater extent about its horizontal diameter than the device attached to the right foot, thereby increasing the lift upon the left foot. In lieu of the methods set forth above. steering may be accomplished by a simple bending movement of the body in the desired direction. By muscular exertion, the flyer may bend his body at the waist either to one side or the other and thus produce a corresponding turning tendency. After some experience in the maneuvering of the apparatus. a fiver should be able. to control it and maintain his balance with it in much the same way as a person controls his movements on skates or on a bicycle or motorcycle. While I do not wish to limit myself to any specific dimensions or details of the various portions of the apparatus. a pair of connected Venturi rings of the character disclosed above, each having an engine capable of developing 40 H. P., should be able to carry a fiver having a total weight. with his equipment. of, say, 380 lbs.. a distance of between 125 and 350 miles. depending upon the extent of streamlining provided and the speed of flight. This is on the assumption that the wing structure 22 and 23 is so formed as to be capable of retaining 30 lbs. of gasoline. The fiyer may attain a forward velocity of between 125 and 200 miles per hour in the course of his flight in a horizontal position. His forward speed in the positions indicated at M and 46 in Fig. 5 will ordinarily be below miles per hour. The speeds attainable. as well as the distances through which the fiyer may travel non-stop, will vary considerably in accordance with the extent of streamlining employed in connection with the apparatus and also the body of the iiyer through the use of shields and the like embodied in his garments. Referring now to Figs. 6 and 7, a somewhat modified form of construction is illustrated. Here the two Venturi rings 50 and ii are rigidly connected. respectively. with tubes or sleeves 52 and 53. These sleeves. in turn; are mounted for free turning movement about a shaft or connecting rod 54 passing through them and having a bearing fit with respect thereto. A nut 55 with any appropriate locking means, at each end of the connecting rod and cooperating with a thrust disc 56. may serve to retain the parts in assembled relation and prevent separation of the sleeves 52 and 53 and their connected Venturi rings beyond the positions indicated in Fig. 6. Foot rests 51 integral with the tubes 52 and 53 may be so located as to Provide a comfortable stance for the flyer. An advantage of this construction is that the fiyer need not keep his feet spread as far apart as in the Fig. 1 construction. Accordingly. the foot rests may have their upper surfaces substantially in a horizontal plane, instead of being inclined as in the first embodiment. A disadvantage of this construction, on the other hand, is that it is less flexible than the.form shown in Fig. 1. The Venturi rings are simply capable of rotation relative to each other about the axis of the connecting rod 54. They are not capable of sidewise or transverse rocking with respect to each other. In other respects the modified construction may be substantially the same as for the embodiment of Figs. 1 to 4. This applies to the form and monuting of the engine and its propeller for each ring and the controls for varying the engine speeds and the pitch of the propellers. Since the modified construction is incapable of sidewise or transverse tilting of one Venturi ring with respect to the other. steering of the flyer, while in horizontal flight, and other maneuvering is not subject to such flexibility of control as in the first construction. But the various desired movements of the flyer may be brought about in one or another of the ways hereinbefore mentioned, which does not require relative transverse tilting of the units. In the modified form the parachute straps it maybe connected with thesleeves H and 53 in lieu of being connected with the Venturi rings or the engine housings. as in the first construction. While a preferred form of the flying apparatus and a possible modification of the same have been described in considerable detail, and the new method of flying involved in the use of the improved apparatus has likewise been set forth in detail, it will be understood that numerous changes may be made in the construction and arrangement of the various parts and in the procedure followed without departing from the general principles and scope of the invention. I claim: 1. Flying apparatus which comprises a pair of connected power members each having foot supporting means arranged to receive one of the feet of a flyer. said members connected for independent angular adjustment by the feet of the ilyer, propelling means carried by each of said members. and means for controlling the delivery of power to said propelling means. 2. Flying apparatus which comprises a pair of connected power members each having foot supporting means arranged to receive one of the feet of a fiyer. said members being connected for independent angular adiustment by the feet of the ilyer. each of said power members having a surface thereon adapted to impart lift thereto in response to relative movement between the same and the air, propelling means carried by each of said members, and means for controlling the delivery of power to said propelling means. 3. Flying apparatus which comprises a pair of connected power members each having foot supporting means arranged to receive one of the feet of a flyer, said members being connected for independent angular adjustment by the feet of the flyer, each of said power members having a surface thereon adapted to impart lift and lateral forces thereto in response to relative movement between the same and the air, propelling means carried by each of said members, and means for controlling the delivery of power to said propelling means. 4. Flying apparatus which comprises a pair of connected power members each having foot supporting means arranged to receive one of the feet of a flyer, said members being connected for independent angular adjustment by the feet of the flyer. each of said power members having a surface thereon adapted to impart lift and lateral forces thereto in response to relative movement between the same and the air, the magnitude of the lift and lateral forces being variable in response to the foot movements of the flyer. propelling means carried by each of said members. and means for controlling the delivery of power to said propelling means. 5. Flying apparatus which comprises a pair of connected power members each having foot supporting means arranged to receive one of the feet of a tlyer, said members being connected for independent, universal, angular adjustment by the feet of the flyer, propelling means carried by each of said members. and means for controlling the delivery of power to said propelling means. 6. Flying apparatus which comprises a pair of connected power members each having foot supporting means arranged to receive one of the feet of a flyer, said members being connected for independent angular adjustment by the feet of the fiyer, variable pitch propelling means carried by each of said members, means for varying the pitch of said propelling means, and means for controlling the delivery of power to said propelling means. 7. Flyin apparatus which comprises a combined power and propelling unit. means on said unit adapted to be attached to the feet of a flyer, said unit having propelling means arranged to impart a lifting and pushing force lengthwise of the fiyer's body through his feet. fuel storage means adapted to be attached tothe ilyer's body and arranged to supply fuel to said unit, said fuel storage means being constructed and arranged to form an air foil. and manually operable means for varying the lifting and pushing force of said propelling means. 8. Flying apparatus which comprises a combined power and propelling unit. means on said unit adapted to be attached to the feet of a flyer, said unit having propelling means arranged to impart a lifting and pushing force lengthwise oi the flyerfs body through his feet. fuel storage means adapted to the attached to the flyer's body and arranged to supply fuel to said unit. said fuel storage means being constructed and arranged to form an air foil, supplementary air foil means mounted on the flyers head. and manually operable means for varying the lifting and pushing force of said propelling means. 9. Flying apparatus which comprises a pair of ring-like members. means for retaining said members in predetermined spaced relation but enabling independent relative angling thereof, said members having inner and outer surfaces combining to form an air-foil configuration. power means mounted within each member, a propeller within each member arranged to be driven by said power means, means for attaching said members to the feet of a flyer so as to impart a lifting and pushing force to the flyer through his feet, and means disposed adiacent the hands of the iiyer for controlling the operation of said power means and propellers. 10. Fying apparatus which comprises a pair of ring-like members. a pair of rods each having a universal connection with both of said members for retaining said members in predetermined spaced relation but enabling independent relative angling thereof. said members having inner and outer surfaces combining to form an air-foil conadjacent the hands of the fiyer for controlling the operation of said power means and propellers. l1. Flying apparatus which comprises a pair of ring-like members, means for retaining said members in predetermined spaced relation but enabling independent relative angling thereof, said means comprising a bearing sleeve secured to each of said members and a shaft journaled in both of said bearings andserving to tie the same together, said members having inner and outer surfaces combining to form an air-foil configuration, power means mounted within each member, a propeller within each member arranged to be driven by said power means, means cari'led by said bearing sleeves for attaching said members to the feet of a flyer so as to impart a lifting and pushing force to the flyer through his feet, and means disposed adjacent the hands of the flyer for controlling the operation of said power means and propellers. 12. Flying apparatus which comprises a combined power and propelling unit, means on said unit for supporting and retaining the feet of a flyer, said unit having propelling means arranged to impart a lifting and pushing force lengthwise of the flyer's body through his feet, said supporting means responding to rotation of the flyers feet relative to his body and being so connected to at least a portion of said unit as to act thereon for varying the direction of said force relative to the body, and manually operable means for varying the lifting and pushing force of said propelling means. 13. Flying apparatus which comprises a combined power and propeller unit, means on said unit for supporting and retaining the feet of a flyer, said unit having propeller means arranged to impart a lifting and pushing force lengthwise of the flyers body through his feet. said supporting means responding to rotation of the W8 feet relative to his body and being so with at least a portion of said unit as to act thereon for varying the direction of said force relative to the body, manually operable means for varying the lifting and pushing force of said propeller means, and a normally folded but releasable parachute connected with said unit and with the fiyer, the arrangement being such that the load of the unit is taken directly by the parachute when the latter is opened. 14. Flying apparatus which comprises impelling means, foot supporting and retaining means connected with said impelling means for attachment to the feet of a fiyer and arranged to impart a lifting and impelllng force to the flyer through his feet, said supporting means being responsive to rotation of the Ilyfls feet relative to his body, and being so connected to said impelling means as to act thereon for varying the direction of said force relative to the body, power means for operating said impelling means, a fuel reservoir connected with said power means for supplying fuel thereto and manually operated means for controlling the supply of power to said impelling means. l5. Flying apparatus which comprises impelling means, foot supporting and retaining means connected with said impelling means adapted to be attached to the feet of a ilyer and arranged to impart a lifting and impelling force to the flyer through his feet, said impelling means comprising an impeller attached to each of the flyer's feet, said foot supporting means being responsive to rotation of the flyers feet relative to his body and being so connected to said impellers as to act thereon for varying the direction of said force relative to the body, power means for operating said impelling means, a fuel reservoir connected with said power means for supplying fuel thereto, and manually operated means for controlling said impellers both in unison and independently of each other. 16. Flying apparatus which comprises impelling means, foot supporting and retaining means connected with said impelling means and adapted to be attached to the feet of a flyer and arranged to impart a lifting and impelling force to the flyer through his feet, said impelling means including a variable pitch propeller attached to each of the fiyers feet, said foot supporting means being responsive to rotation of the flyers feet relative to his body and being so connected to said impelling means as to act thereon for varying the direction of said force relative to the body, power means for operating said impeliing means, a fuel reservoir connected with said power means for supplying fuel thereto, and manually controlled means for varying the pitch and speed of said propellers. CHARLESH. REFERENCES CITED The following references are of record in the file of this patent: UNITED STATES PATENTS Number Name Date 1,240,669 Capps Sept. 18, 1917 1,838,327 Salisbury et al. Dec. 29, 1931 1,849,766 McGuire Mar. 15, 1932. 2,218,080 Johnson Sept. 24, 1940 2,180,922 De Bothezat Nov, 21, 1939 1,928,578 Turrell Sept, 20, 1933 1,957,896 Marguglio May 8, 1934 1,137,212 Jelaiian Apr. 27, 1915 1,887,759 Rehback July 19, 1932 FOREIGN PATENTS Number Country Date 411,240 French Apr. 7, 1910 407,144 French Dec. 22, 1909 Кортинго (остальные 10 неинтересны)А вот Циммерманн отжыгаед Поделиться сообщением Ссылка на сообщение Поделиться на других сайтах
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