DE3205488A1 - FLOATING DEVICE - Google Patents

Description

Tepla Trading Co. S.A.

c / o Maxtres Morgan y Morgan, Edificio Republic,

Via Espana et Calle Columbia, Panama

Floating facility

The invention relates to a device for levitating people in an upward direction Air flow and in particular a free floating device (levitationarium), in which the free floating in the Air is reached by people, either alone for the pleasure of the user or for the fun of the user Spectators or also for training and especially for practicing the free fall of parachutists.

The present invention is primarily based on the object of creating a device of the type mentioned. Furthermore, the invention is based on the essential object of providing a free-floating device (levitationarium) of the type mentioned in such a way that it can work easily, safely and economically. About that In addition, the present invention is based on the particular object of a device or a cantilever device to create the type mentioned, in which the requirements for the air flow and the necessary performance requirements should be kept as small as possible, with a suitable, expedient Construction and arrangement of the propeller for the air flow in relation to the floating chamber achieved shall be. In addition, the present invention is based on the particular object of a device of the above kind to create in which a propeller for air flow from an annular

Airway is delimited or surrounded in order to be advantageous In addition to the internal air flow generated directly by the propeller, create a negative pressure air flow to generate which in said annular airway around said channel by the negative pressure or suction is generated.

To achieve this object, according to the invention, a device, in particular in the form of a building, is included proposed a room or chamber in which an upward air flow is generated so that people can float freely. This facility, which is hereinafter also referred to as the Levitationarium is designed and arranged for a simple, safe and economical way of working, being mainly due to the propeller, which such is bounded or surrounded that a negative pressure flow is effected in the annular airway, namely in Result of the direct air flow from the propeller inside the said duct or said envelope. According to the invention an annular air path is provided to allow a closed flow of air between it and the suspension chamber. In addition, according to the invention, an annular or toroidal one is formed Core provided, which viewed in the radial direction between the floating chamber and the annular airway is available and which is expediently a gallery for spectators as well as the staircase and access for contains the suspension chamber. Further features essential to the invention emerge from the claims and the embodiment described below. The above and other features and advantages of the

The present invention will be explained by way of example for a better understanding with reference to the drawing and the detailed description of a preferred embodiment.
Show it:

FIG. 1 shows a longitudinal section through a device for free floating of people.

Figures 2, 3, 4 and 5 sections along the section lines 2-2, 3-3, 4-4 and 5-5 according to Figure 1,

Figure 6 is an enlarged view of the inner part of Figure 2 and

FIG. 7 shows a section along the section lines 7-7 according to FIG.

The device shown for free floating includes a housing 1, which in the present case Has the shape of a substantially cylindrical building. The housing 1 contains a cylindrical side outer wall 2, which is arranged coaxially to a cylindrical inner wall 3. The outer cylindrical Wall is made integrally from one piece with a base or foundation 4 and a roof 5, all of which are preferably made of concrete. The housing 1 or the building contains an annular and substantially cylindrical chamber in which a core 6 with an annular shape is arranged.

The annular core 6 includes an inner and an outer cylindrical wall. The inner cylindrical wall of the annular core 6 is inside with a

provided with shock-absorbing lining, and forms with this together the inner cylindrical wall 3. The annular core 6 is supported by a number of posts or Supports 7 carried, which are streamlined in the radial direction to a possible to obtain uniform flow between them. The inner cylindrical wall 3 encloses a cylindrical ahwebekammer 8 and it is at the bottom and bottom open at the top so that there is a lower inlet opening and an upper outlet opening. The interior space in the housing 1 has an annular air path which extends between the upper outlet opening and the lower inlet opening of the cylindrical floating chamber extends and between the outer one cylindrical wall 9 of the core 6 and the outer cylindrical wall 2 of the housing 1 and the building, respectively is available. This annular air path thus enables a closed air flow, with the in the Air flowing upward from the floating chamber flows outward into the annular airway and then from below again flows into the floating chamber.

So that a suitable, even or streamlined or streamlined air flow can be generated can, inner axial projections 10 and 11 are provided on the base 4 and on the roof 5, respectively. Advantageous 11 headlights 12 and, if necessary, also other appropriate ones are attached to said upper inner projection 11 Facilities, in particular flow meters, which are no longer shown here, are arranged. On the lower inner axial projection 10 is a fan

arranged with a propeller 13. The said Propeller 13 is coaxial with the floating chamber 8 and that is arranged at the bottom and it is means a motor 14 is driven via a gear 15. Of the Propeller 13 is surrounded by a cylindrical channel 16, the diameter of which is smaller than the inner one cylindrical wall 3 so that an annular air path exists between them. The fan propeller creates a negative pressure for the air in the above annular airway. It thus becomes an additional air flow or a negative pressure air flow generated, which is added to the direct air flow. The propeller 13, which is thus comparatively small, requires hence a much smaller motor 14 than if the same air flow was direct through one large propeller would be generated. Above the propeller 13, a grid 17 is fixed and in the floating chamber reliably arranged.

A launch and landing base spans the propeller 13 surrounded by the canal and includes a Lattice network 18. The lattice work 18 consists of one suitable material, on the one hand, to carry the user standing on it and, on the other hand, to carry one upwards to let directed air flow through. The take-off and landing base also includes an outer one impermeable tour 19, on which one is largely unaffected by the upward-flowing air can stand and from which one can jump to the center of the chamber in order to be lifted by the air flow and fly as shown in Figure 1.

The core (6) contains annular galleries 2 0 arranged one above the other, in which spectators can be located. to observe the users through window 21 in wall 3. Suitable stairs 22 and passages 2 3 are further provided to have access to the floating chamber through the surrounding annular portion of the building to get through. It should be particularly emphasized that the upper and also the lower each follow each other inside extending areas of the building but also the core 6 and the passages 2 3 rounded and are streamlined or streamlined, so that, according to the known rules of aerodynamics, the highest possible degree of efficiency (as low as possible Flow resistance) is guaranteed.

housing 1 9 casing -M- outer wall 2 10 outer wall List of reference symbols inner wall 3 11 inner wall base 4th 12th Basis, foundation roof 5 13th roof core 6th 14th core post 7th 15th support levitation chamber 8 16 Suspension chamber outer wall 17th outer wall projection 18th head Start projection 19th head Start light projector 20th Headlights propeller 21st propeller engine 22nd engine gearbox 23 transmission shroud channel grid Grid grating Latticework walkway tour gallery gallery window window stairways Stairs passage Passage

Claims (1)

Expectations 1y device for the free levitation of people by means of Air, characterized in that a housing (1) is provided which has a floating chamber (8) with a Has an inlet or an outlet at the bottom or at the top that a jump and landing base in the Housing (1) is provided which the user can carry in the floating chamber (8), and that in the housing a fan is arranged which is in communication with the floating chamber (8) and is designed in this way and arranged to have air through the lower inlet is blown to the upper outlet thereof, a stream of air to levitate the user freely in the Floating chamber (8) is generated. 2. Device according to claim 1, characterized in that that the fan is surrounded by a channel (16) Has propeller (13) and that the propeller (13) is arranged in the inlet opening at the bottom of the floating chamber (8). 3. Device according to claim 1 or 2, characterized that the housing (1) surrounds a substantially vertical, inner, cylindrical wall, which the floating chamber (8) forms and that the propeller (13) arranged in the channel (16) around the vertical Axis is rotatable, which runs through the center of said cylindrical wall. 4. Device according to claim 1 or the following, characterized in that the propeller (13) in one cylindrical channel (16) is arranged, the diameter of which is smaller than the surrounding part of the im substantial vertical, inner, cylindrical wall (3), and that the channel (16) together with the inner wall (3) form an annular space, which: in turn, the Channel (16) from the vertical, inner, cylindrical Wall (3) separates and thus forms an airway extending in the axial direction, the latter being formed extends outside said channel (16) and is arranged and designed such that a negative pressure air flow is generated as a result of the rotating propeller (13). 5. Device according to claim 1 or the following, characterized in that the housing (1) has an area for has an air path which connects the upper outlet opening with the lower inlet opening of the floating chamber (8) connects, and that said air path is designed and arranged such that a closed flow path is formed by this via the fan and the floating chamber (8). 6. Device according to claim 4, characterized in that the housing (1) has an outer wall (2), which encloses said substantially vertical, inner, cylindrical wall (3), in radial Direction outward a distance is given to form an annular airway, which the upper Outlet with the lower inlet ■ connects and which is designed and arranged such that a closed Air flow through this and the propeller (13) arranged behind it in the direction of flow, which is surrounded by the channel (16) and the floating chamber (8) is created. 7. Device according to claim 1, 2 or 4, characterized in that a core (6) within the housing is arranged that in the core (6) on the outside of said vertical, inner, cylindrical wall (3) a staircase and a passage into and out of the floating chamber (8) through said wall for the user is intended. 8. Device according to claim 1, 2 or 4, characterized characterized in that the housing (1) has an annular Has core (6), which around the vertical, inner, cylindrical wall (3) is arranged and contains a gallery (20) for visitors outside the inner wall (3), that the core (6) has a passage (23) for the user in and out of the floating chamber (8) has, and that said wall (3) has windows (21) which are assigned to the gallery (20) in this way and further designed and arranged so that visitors into the interior of the floating chamber (8) can see. . . 9. Device according to claim 6, characterized in that that the housing (6) encloses an annular core, that the core (6) around the said vertical, inner, cylindrical wall (3) around and further within the ' annular air path is arranged that the core (6) outside the vertical, inner cylindrical wall (3) a spectator gallery (20) and an entrance for the passage of users in and out of the suspension chamber (8) out through said wall (3), and that the wall (3) has windows (21), which the Viewers gallery are assigned and are designed and arranged so that viewers in the interior of the Floating chamber (8) can see. 0O. Device according to Claim 1, 6 or 9, characterized that the take-off and landing base has a latticework (18) which, when used, the standing user and allows a penetrating, upward airflow. 11. Device according to claim 1, 6 or 9, characterized that the take-off and landing base has an air-impermeable passage (19) and a Contains latticework (18), which carries users standing on it during operation and the passage of the allows upward airflow.