DE6802033U - BALLOON AIRPLANE TOY - Google Patents

Description

DR. HUGO WILCKEN DIPL.-ING. TH. WILCKEN D - 24 LÜBECK, BREITE STRASSE 52-54

October 11, 1968 Th.W./U. Applicant:

Uwe C. Seefluth, 2409 Klingberg »SeestraAe, House Kronoe Balloon plug plug

The invention relates to an equipped with a propeller Balloon flight jar, consisting of an inflatable BSW * old compressed air precipitable balloon, its interior with one or more of the propeller hub after tufted running air ducts in connection with release the air drawn from the balloon according to Art a reaction drive switch drive of the propeller is deflected and ejected.

It is imperative that with such flight stops the propeller and the drive mechanism a m & gliohst have little Qewleht, with it the Vluglelstung and with it the achievable plug width is sufficient and satisfactory 1st. It is already known for such plug washers the propeller with the help of elnas air motor, like * .B. a FlOgelsellenmetor, which see in the area of the propeller hub is located to drive. However, practice has worked, "" aft Such a construction turns out to be so difficult that the necessary flight performance when using an elastic one

Balloon"! al »pressure accumulator In no case sufficient lit.

Bel the known constructions with pressurized air reaction drive on the propeller blade split was consistently a rigid, relatively heavy one and made from one piece Z.elblattpropeller used, which over?! · An air duct with the DruokvXxeferaden balloon in connection. Even here it turned out that the Qesamtgewlcht im generally becomes so high that an acceptable plug performance not obtainable 1st. Ss is even justified to say daA the previously proposed embodiments for such a plug socket due to the relatively high leaf surface load dee propellers and by using not 8tabill » slerter two-bladed propellers are not at all airworthy. Furthermore, it is not evident in such constructions adapt the propeller power to the air pressure of the respective balloon, especially the wall tension of the balloon In the course of using the Splelseug it decreases and only through Change in propeller performance, etc. Propeller shaft can be compensated again to some extent. Another disadvantage of the known proposals is that only Special balloons with a separate air inlet can be used can, which is not only related to manufacturing technology brings itself, but also increases the weight of the toy and thus sustainably reduces the flight performance.

The invention is therefore sugrunde the task of a balloon flight game * u create in which the above-mentioned

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parts do not occur and its flight weight by a advantageous structural design is so low. that good flight performance can be achieved on long flight paths. Another task is to reduce the propeller lift * Make performance variable in order to adapt it to the respective performance or to change with the age of the toy It is possible to adjust the wall tension of the balloon used and to achieve lower levels of play both To be able to use flight altitudes in closed rooms as well as outdoors to achieve greater flight heights.

To solve these problems, the above-mentioned flying toy is constructed according to the invention so that the Propeller is designed as a rotary vane rotor and that the rotary vanes preferably detachably connected to the rotor hub are adjustable in terms of their angle of attack and are composed of several lightweight or foam bodies or from closed and self-supporting hollow profile bodies or -tell hollow bodies exist. Adjustment of the rotary wing takes place by rotation about its longitudinal axis, the wings in their respective position by a form-fitting or Kraft- bB'f. Frictional bearing connection are held.

At the end facing the rotor hub of each rotary vane is a connecting element in the form of a neck, tube, Pen od. The like. Provided that in a corresponding recess on or in the Kotornabe or on a pipe socket the rotor hub is pluggable. The air ducts are in or on

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the rotary wings or are τοη through the interior separate radially or approximately radially sur Kotomabe rerlaufenden and preferably detachably formed with this connected tubular bodies, the air flow to the outer The ends of these channels are suitable for generating the drive.

Some exemplary embodiments of the invention will now be explained in more detail with reference to the accompanying drawings. Ss ze strength:

Flg. 1 is a side view of the toy in partial section;

Fin ;. 2a to 2g different shown in perspective Embodiments of Rotary flights

3a and 3b perspective views of the rotary wing endon,

Fig. 4a and 4b the rotor hub once in the longitudinal and on the other hand in cross-section,

4c shows another embodiment of the rotor hub and

Fig. 5 shows a special attachment of the air ducts on ctev rotor hub.

In the case of the one in Flg. 1, the ball 1, preferably a conventional children's play balloon, together with a pipe socket 2 to which the balloon with its tube-like opening 3 is attached, is pulled out of the rotor shaft 4 for inflation or pumping. After the balloon has been filled with air, it is plugged back into the hub 4 via the nozzle 2.

channels in the rotor hub and through the rotary vane channels |

ύ towards the blade tips and becomes more tangential there \

ί Ejected towards the turning circle of the rotary wing, whereby \

the rotor is set in rotation together with the balloon. ;

Since the rotor blades 6 are engaged, the Spielaeug j immediately starts to rise and fly freely. With the one who sang here The air ducts 5 of the rotary vane blades are exemplary 6 extended at the Plügelwurael, & o dal » the air ducts in this sub-area are used as a connecting element to the Hotornabe, with which they x. B. relbsehlüsslg are connected. Another connection, like a force fit or form fit, is of course also available possible. The extended air duct stut £ βη 7 are round and allow the angle of attack to be adjusted at the same time of the rotary vane blades by allowing the blades to rotate about their longitudinal axis. Per & * cfc prevailing air pressure and naoh elasticity of the balloon can make the adjustment the rotary vane blades can be selected smaller or larger, thereby increasing the speed and torque of the rotor to be influenced. Thus, an adaptation of the rotary vane rotor to the respective Eallonart and an adaptation to the prevailing air pressure of the balloon possible.

The rotor hub should be designed to be as light as possible and therefore consists of a lightweight or synthetic material body, the one that runs straight in the direction of the rotor blades and in the direction of the balloon hanging below Air ducts provided with, for example, a round cross-section has, which together in a common collecting space

meet and «are anciently connected with each other and in their outer ends of the tubular stubs 7 of the rotary wing or the tubular ■ tutien 2 of the balloon can be attached, for example, by simply inserting it.

The Rohrstutsen b * w. the tubular piece 2 located at the same time as the balloon 1 and the rotor hub 3 has a balloon-like shape an annular recess 3 on its surface, into which a partial area of the smart balloon opening 3 due to the elasticity of the balloma material. on this catfish will hold the balloon firmly on the tube 2 received.

To increase the strength of the rotor hub and avoid damage the hub by pushing in the Stutsensensens 2 xu, a not further shown pipe piece inserted, glued or in the lower opening of the hub seen, which for reasons of weight saving consists of the lightest and thin-walled material possible. In this Korse tube piece is then connected to the balloon 1 Hohrstutsen 2 pushed. To the usual on the Harkt located balloons can use κα will be a Bale with only one hollow tapered opening used, which serves both to attach to the rotor and also to inflate the balloon.

To ensure good stabilization of the toy «during flight eu will, like Flg. 1 clearly inclines, the rotary wing spawns naob angled at the top of the rotor hub

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strengthens, ao that the flux plane is a flat cone forms. The angling can of course also be downwards take place. An advantageous feature of the invention is in that the exhaustion of the air on the rotary wing deviating from the rotating circle tangent obliquely outwards can run, which is achieved by a corresponding course of the channels at iren outer free ends. Through this outwardly directed beam angle, which is a maximum of about 45 ° Can be., one achieves that the Jlugeplelzeug within Turns off closed rooms in front of obstacles and significantly less collides with Zimmerviändon and the like, what is essentially due to the radially outward portion of the expelled air.

about a flutter-like movement and a tilting of the game bug Prevent au during the plug, the rotary vane rotcr advantageously three or more rotary blades, at least one of which is provided with an air duct with an outlet nozzle is. If only two rotary vane blades are used, according to the invention, between them in the plane of rotation Stabilizing surfaces, stabilizing rods or others a stabilizing effect is attached to the body.

In Cen Fig. 2a to 2e are some embodiments for ausanimengesetL <* Lightweight constructions for rotary sash shown. That in Pig. Rotary leaf 11 shown in FIG. 2a consists of lightweight or foam material, such as. B. Polystyrene foam or balsa wood. At the leading edge of the Sheet 11 is the air duct 12, which from

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thin-walled pipe made of e.g. plastic material 1st. The air duct 12 and the plow blade 11 are connected to one another by being glued together, pivoted or by being plugged together. The In Flg. 2b sloping rotor blade is composed of two halves 13 and Ik , which each have recesses in the area of the thickest profile point, which are aligned with one another after the two wing halves have been put together and form an air duct 15. The rotary wing according to Fig. 2c is also made of lightweight or Sehaumstoffmaterial and is provided on the lower side with a recess 16, which is glued or covered with a film 17, creating a longitudinal air duct that is roughly half-shaped in cross-section Has a circular area or a similar shape.

In Fig. 2d a rotary vane is shown in which a longitudinal air duct 20 is formed through the cavity is that after profile-like Uirbiegung a plastic film arises. The two film ends 21 and 22 run parallel to one another and are welded together or with one another glued, one end of the film over the end of the other film to save weight to the rear can protrude. In the case of the one in Flg. 2e silted embodiment for a rotary leaf, swel foils are both on the front edge 23 and at the rear edge 26 with one another tied together. The upper film is slightly curved bsw. arched, while the lower film 27 is less curved bsw. just is so that an air duct 28 is created between the two foils.

The width of the film edges can also be duroh

Visual distances or gluing take place. The bsw by dl · bent foils. A profl-shaped cavity formed in a bent foil can have a round cross-section at the root of the twisted flight, which is then inserted and a winged root excellent thin-walled Rohrstttek uaoohli9At _f nit which the DR hfiOg # l to d "r ro tor nab · is attached.

In the Flg. ? a and 3b are Blatttplti «ndu» «n of the rotary wing perepelctiviioij. shown. When executing according to Flg. 3a is an approximately tangential to the wing rotation circle on the rotary wing in the 30 lying "Rohretüok 31 brewed, welohee with the duroh the three-wing running air duct 32 Ir is connected and directed towards the rear, a nozzle-like opening 33 opens. This structure is in advantageous catfish or ganss see below «Part designed as a streamlined body. When executing geaäA Flg. 3b runs the cavity of the curved from a and the rear wing 35 at the wing end 36 near the rear roughly tangential to the turning circle * and has a nozzle-like opening 37 there. The den The cavity forming the air duct is created twice as a result, daft the Follenbereiohe forming the upper and lower wing part glued together at a suitable point or be verbalized.

There are various options for the structure of the rotor hub Options. QemäA Flg. Ha the hub consists of one

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Foam body 40 ₉ in which there are air ducts for air flowing from the balloon into the rotary wing. These channels are advantageously designed to run straight and have a round cross-section. The rotor hub can also be assembled from sirei halves, which are suitably connected to one another at the dividing line 41. In FIG. 4b it is shown how the air ducts 45, in which for example the rotary blades are attached, meet the main air duct 46, which runs vertically and is connected to the interior of the balloon. 4c shows a similar rotor hub, which is not made from foam material but from thin-walled plastic. In this case, too, the rotor hub can be assembled from an upper and a lower half in the plane of the cutting line 47 in order to enable the hub to be easily shaped and manufactured.

Another arrangement of the air ducts according to the invention is shown in FIG. Air nozzles on the rotor are shown, through which it is reached, "a" the rotor blades are firnl r & n Lüffckanäle and air nozzles. The free-standing air duct · bsw. Air guide tubes 50 are fastened in the air duct openings of the rotor hub 52 by insertions into the openings and are thus connected to the balloon via ducts running through the hub. The air nozzles 51 are advantageously arranged so that the air outlet direction is inclined downward from the plane of rotation. In this case, the three-part winding blades are fastened to the rotor hub 52 in such a way that they are also in a bent position about their longitudinal axis

If

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Their angle of attack can be adjusted. Also hler the rotor blades are made of a light material such as balsa wood or the like.

The advantages achieved by the subject of the application consist in particular that using commercially available Balloons a plug toy is created, which has good flight characteristics and flight performance. The structural advantages are mainly that the DrehflugIblätter, the air ducts, the rotor hub and the Connection «to balloon from extremely few and extreme Light pieces of material exist, whereby Oberhaupt only the good plug rental of the toy according to the invention be made possible. Another advantage is that the toy can be dismantled, that is, dismantled can be, and that thus the disassembled toy Susanne with several feeding balloons in one package BU of a toy unit can be combined 1st.

Claims (11)

PATENT LAWYERS DR. HUGO WILCKEN · DIPL.-ING. TH, WILCKEN A D - 24 LÜBECK, BREITE STRASSE 52-54 Registered October 11, 1968 Uwe 0. Seefluth, 2409 Klingberg, lh.W./U. \ Sea punishment «, Haue Kronoa 1. Equipped with a propolier consisting of an inflatable bsw. with compressed? Air-fillable balloon, the interior of which is marked with an or several leading ones from the propeller hub close up Air channels communicating at their outer ends the air drawn from the balloon in the manner of your reaction drive iweaks drive of the propeller deflected and ejected is, characterized in that the propeller designed as a rotary vane rotor and so in advance Rotatable vane connected to the rotor hub in Beau «are adjustable to their angle of attack and are composed of several Lelehfcstoff- or Sohaumstoffkurpern are closed and self-supporting hollow profile bodies, etc. - Partial hollow bodies exist. 2. Flugspielseug close to claim 1, dadureh gekennselehnet, daA the adjustment of the rotary wing by turning around their Longitudinal axis takes place and that the wings are in their respective position by a mold sole or force-bsw. relbsorbent Bearing connection are kept. 6Q Λ 9 Lübeck (0451) 7 58 88, private: Dr. H. Wildeen, ΑΛιιΛΐ <β5Ο5Γ "? Ίθ -'DTpL-InIT Th.> RfilckerC Lübeck (0451) 40 81 84 Bank. Commer: bank A.G., FiI. Lobeck, account no. 39 0187 ~ Post check: Hamburg 1381 19 3. flying toy according to claims 1 and 2, characterized characterized in that at the end facing the rotor hub Each rotating sash »« in a connecting element in the form of elnee Approach, tube, pin or the like is provided, d & s in a corresponding recess on or in the rotor hub or can be plugged onto a pipe socket of the rotor hub. 4. Flying toys naoh claims 1 to 3, thereby characterized in that the air ducts are in or on the rotary blades or through the interior of separate tubular bodies extending radially or approximately radially to the rotor hub and preferably detachably connected to it are formed and that the air flow is appropriately directed at the outer ends of the channels. 5. Plug toys naoh claims 1 to 4, thereby gekennzeiehnet, daft the rotary wing from a profile-like Light or foam bodies are made in which see a is located in the longitudinal direction extending air duct, whose nozzle-like opening at the wing tips is approximately tangential the wing is bent near the back. 6. flying toy according to claims i to 4, characterized in that the rotary wing from the compound of a thin-walled, made of light plastic material continuous air duct or air guide tubes with a Profile-forming lightweight or Sohaumatofflügel exist. 7. plug toys naoh claim 6, characterized in that that the tubular "air duct at the front edge dtη rotary flugeIs lies b «w. runs while the rear flights1-tell preferably by gluing or welding on the air duct is attached. 8. flying toys according to claims 1 to M, thereby gskonnseiehnet that the rotary blades from one upper and lower halves are textured together, where In the area of the thickest sections of the profile, there are recesses in both profile halves that are opposite to one another are provided, which are aligned with each other and after assembly of the profile halves one lengthways the rotating flights form the air duct running through the leaf, 9. Flugapielaeug according to claims 1 to 4, characterized characterized in that the rotary vane blades on the lower or Have a length-running recess on the top, which is stuck over or covered with a film or the like. 10. Flying toy according to one or more of the claims 1 to 9, characterized by the fact that at the ends of the rotary wing there is an e-cwa tangential to the turning circle attached, ^ as with the air duct of the rotating flight ice m is connected, has a dune-like opening towards the rear and is wholly or partially as a streamlined body is trained. 11. Flying toy according to claims 1 bl «4, thereby characterized that the rotary vane blades are made from a thin waiid POIIe ₅ like a. B. Künste toff oll ·, exist, that · at the leading edge of each rotary wing »hydrofoil-shaped or bent at a sharp point, while the trailing edges of the foil run near the back and are attached parallel to each other *. 12. Flugspielseug aaeh claims 1 to Ί, dadu? Eh gekesmseiehnet that the cavity serving as an air duct the one that is bent over and joined at the rear end Foil existing rotary wing & n rotary wing end · near the rear about tangential to the turning circle and there has a nozzle-like opening. 13. Flying toy according to claims 1 to 4, dadureh marked, daft the hollow rotary wing made of swei foils, naxalioh a curved bsw. arched top and one less curved or flat lower slide, susaftDengesetst are. 1Λ. Flugupieleeug naoh one or more of claims 1 to 13, gekennseiehnet dadureh that the upper or lower foil edge of the profile-like curved FoJ! • naatarlal In sake rotary wing depth · expires at therebelow or overlying Follenfl & before UUD at this aB dureh gluing or Ansehweißen attached 1st while the other foil edge tapers off towards the rear and forms the flat end without profile of the respective rotary wing. 68C2038 15. Flugspielseug close to «in ·» or more of the claims 1 to l4, characterized by the fact that the through the curved Foil formed profile-like cavity at the root of the rotary wing has a round cross-section, the one inserted and ssur flttgelwursel protruding thin-walled piece of raw material with which the rotary wing is attached is attached to the rotor hub. 16. Flugspielseug according to one or more of the claims i to 15 »characterized in that the rotor hub does eintm plastic or foam body consists of each in the direction of the rotor blades and in the direction of the balloon hanging under it for example with a round cross-section »air ducts has that run sueaamsn in a common collecting throat and are thus connected to each other and in the Ansätee, Hoarstutuen od. Like. On the rotary wings bsw. can be attached to the balloon by inserting it. 17. FLugnpittlseug naoh claim 16, thereby marked rewarded, daft see swisohen balloon and rotor hub a pipe wiping tube is located, which has an annular recess on the balloon side on the surface, into which a part of the Claw-like balloon opening, bsw. Ballonmünduitg due her blastillence penetrates, and daft ratorseitlg through Sin- or plugging is releasably connected to the rotor hub. -6- 18. Plug toy according to claims 16 and 17, characterized in that the rotor hub one after facing down and in connection with the Sanaael room standing pipe studs made of thin-walled, light material has, on which the intermediate pipe piece located between the balloon and the rotor hub can be slipped on or off suitably vev »inden. 19. Flying toy according to one or more of the claims 1 to 18, characterized in that as a balloon on Well-known toy balloon with only one tube-like and tapered opening is used, which is used both for Attaching the balloon to the rotor as well as inflating the balloon die.it. 20. Flugaplelzeug according to one or more of claims 1 to 19 ₉ dacuroh characterized in that the rotating wing plane forms a flat cone. 21. Plug toy according to one or more of the claims 1 to 20, characterized in that the air duct ends are shaped or run in such a way that dl- »blow-out direction the air at the turn lies! end bi-w. Channel ends different Top. ler turntable! rod runs obliquely outwards. 22. Flying toy according to one or more of the claims 1 bia 21, characterized in that the rotary vane rotor has three or more rotating blades. 23. Flugsplelzeug according to one or more of claims 1 to 21, characterized in that the rotary vane rotor consists of two longer rotary vanes provided with air ducts, "between which shorter ones are attached to the rotor hub · stabilization bodies are provided" ⁱⁿ which the air ducts with end nozzles can be provided . 24. Plugspielseug according to one or more of the claims 1 to 23, characterized in that, between the rotating blades, free-standing and connected to the rotor hub Air ducts are located, the ends of which are bent back approximately tangentially to their plane of rotation and a nozzle-like Have opening. 25. Plugspielseug according to claims 1 to 2H, characterized marked, that it can be dismantled into several parts and with one or more replacement balloons in one package can be combined into a toy unit.