Amusement devices: toys – Aerodynamically supported or retarded – Including rotary wing
Reexamination Certificate
2001-01-30
2002-10-15
Banks, Derris H. (Department: 3712)
Amusement devices: toys
Aerodynamically supported or retarded
Including rotary wing
C123S041650, C244S012200, C244S017110
Reexamination Certificate
active
06464552
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Technical Field of the Invention
The invention relates to a model helicopter that comprises a body as well as an engine mounted therein to which a rotor is connected through an essentially vertical primary shaft. A lateral outlet opening is provided on the tail boom connected to the body The air sucked from the outside by a radial fan in the body flows through said opening and is directed to the tail boom through a channel. This air imparts a torque on the body that counteracts the torque transmitted by the rotor drive on said body. The air displaced by a first impeller of the fan flows through the engine while flowing through the body and dissipates the heat from said engine.
2. Description of the Prior Art
With most model helicopters, just lie the original helicopters, the drive of the rotor imparts a torque on the body which is compensated by a tail rotor located on the boom As an alternative, some types of helicopter have an outlet opening at the tail from which flows air sucked in the body from outside. In the tail boom the air is subject to a change of impetus perpendicularly in relation to the direction of flight and transmits a force to the tail booms which results in a torque that counteracts the torque caused by the rotor drive as disclosed in U.S. Pat. No. 2,419,604). This principle of compensating for the torque is also used for model helicopters, especially copies of the corresponding original helicopters. In the case of such model helicopters it is known to suck the air into the body via a fan in an axial direction from outside and to expel it in a radial direction where it is directed through a channel into the tail boom and there is subject to the described deflection before escaping through the outlet opening. The lateral control is effected in that the outlet opting is more or less supplied with air with the aid of a flow control device in dependency upon the desired flight path In order to cool the engine a further fan is provided, which works independently. The disadvantage with such types of model helicopters is that the two fans that function independently from each other together have large constructive demands.
SUMMARY OF THE INVENTION
By way of contrast, the invention has the object of creating a model helicopter of the generic concept described at the outset where the constructive demands required in total for torque compensation and cooling the engine are minimized.
In accordance with the invention, this task is solved therein that the radial fan comprises two impellers which are mounted coaxially on the same shaft and a separation wall is provided between the two impellers.
The basic idea of the invention is to utilize the air sucked from the outside by the fan in the body to control and also to cool the engine. Thus solely one fan is required. Because the engine presents a relatively high flow resistance to air flowing through for cooling purposes, and by virtue of the fact that for cooling not the entire amount of the air sucked in is required, it is intended to allow solely part of the air sucked in to flow through the engine compartment. Therefore, two impellers are provided and solely the quantity of air conveyed by the first impeller is to flow through the engine compartment Owing to the coaxial arrangement on the same primary shaft, the constructive demands required to that end are minimized. The separation wall arranged between the two impellers facilitates a defied division of the quantity of air sucked in, without thereby generating an unnecessary high flow resistance The size of the second impeller compared with the first determines the quantity of air supplied to the engine for cooling purposes. Depending on the constructive conditions, the air can be supplied by the fit impeller via the engine or the air may not reach the engine in the flow direction until behind the impeller.
The quantity of air conveyed by the first impeller is heated by the engine and therefore has a higher temperature when combined with the air conveyed by the other impeller, which, owing to the resulting difference in density in the channel disposed between the body and the tail boom, can cause undesirable turbulence in the flow. As a remedy it is proposed the dispose the fist impeller perpendicularly above the second so that when the two air flows are combined the air heated by the engine is located above the cooler air and thus in the channel a stable stratification prevails, thus largely eliminating the expectation of turbulence caused by an ascending force.
In a preferred embodiment of the invention, the two impellers are disposed on the engine shaft This eliminates the power loss caused by gearing
As known in the state of the art, the inventive model helicopter can be controlled in respect of its banking position through different degrees of throttling of the quantity of air driven through the fan. Owing to the increase in flow resistance, however, an unnecessarily high fan performance is needed, which, moreover, depending on the foreseen flight path, varies, which can result in a volatility of the residual performance for driving the rotor As a remedy, it is proposed to provide a smaller second outlet opening opposite the first outlet opening, which discharges a smaller quantity of air and imparts a torque through deflection that counteracts the torque caused by the first outlet opening. The torque resulting from the air discharged on the tail side is controlled by means of a controlling system which distributes the total quantity of air conveyed through the fan, in an adjustable ratio, to the two outlet openings Thus the fall is exposed to a consistently low flow resistance. The first outlet opening is larger than the second and it is supplied with more air because the torque caused by the air outlet on the tail side must filly compensate the torque imparted by the rotor drive.
In a preferred embodiment of the invention the controlling system describes, in a position corresponding to level flight, a plane extending essentially in the lengthwise direction of the body. It thus extends in the direction of the flow and thus only causes a slight air resistance By means of the perpendicular orientation, a lateral separation is possible for distribution to the lateral outlet openings in an especially simple means of flow guidance Moreover, the heating of the air by the engine may possibly result in a vertical temperature gradient, and thus also a density gradient, so that if the controlling system does not stand vertically the average air temperature at the outlet openings can differ, which may have undesired effects on the control behavior.
As far as possible, the adjustable controlling system should not be impacted, at least when the helicopter is in level flight. The surfaces on which the flow is redirected to the lateral outlet openings and which are thus impacted by the force causing the torque, should for this reason as far as possible be disposed so as to remain behind the controlling system. The deflection of the flow works most effectively if the controlling system fits seamlessly and for this purpose is configured at the tail end as a swivelling mounted flap which, independent of its position, can fit seamlessly with the deflection walls. To bank the helicopter, the flap is tilted about the rotation axis and thus effects a change of the distribution of the quantities of air between the outlet openings. An inflow that undesirably subjects the flap to a force, however, cannot be avoided.
To support banking, rudders can also be used and controlled in conjunction with the controlling system.
A further improvement in the banking properties can be achieved by using an elevator unit and by controlling it together with the controlling system.
The impulse expelled per time unit through a lateral outlet opening, and thus the force acting upon the tail boom, can be increased while the same quantity of air flows through if the outlet opening is configured as a nozzle. This is possible if solely a single or two opposing outlet openings
Banks Derris H.
Schindler Edwin D.
Suhol Dmitry
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