LV14339B - Skydiving simulator - Google Patents

Abstract

The invention refers to skydiving simulators in vertical wind tunnels, especially to auxiliary devices of simulator. Flight simulator comprises vertical wind tunnel 1, which comprises a metal frame 2, an engine 3 driving a propeller 4 connected thereto, an air inlet system 5, an air flow straightener 6 and a safety net 7. The simulator is characterised in that the at the sides of vertical wind tunnel 1 are located at least two columns 10, between of which in the wind flow A of the wind tunnel is slideably arranged a suspension system 20.

Description

DESCRIPTION OF THE INVENTION

Technical field of invention

BACKGROUND OF THE INVENTION The invention relates to aerobics trainers in vertical wind tunnels, in particular to training aids.

Vertical wind tunnels were created to train parachutists for a stable posture. Over time, the use of vertical wind tunnels has led to the emergence of a new sport - bodyflight, or aerial acrobatics in a vertical wind tunnel. This type of vertical wind tunnel is no longer a means of parachuting, but is already a sport in itself. In this sport, the expression, the criterion, is the ability to coordinate the flying postures of your body in the vertical wind tunnel. Until now, this sport could have been developed by the exercise method. Many athletes have been injured in these rehearsals because they have failed right away with the new trick they tried.

Known state of the art

Many different aerobics simulators are known, such as the US patent US5655909, a wind tunnel for skydiving. This invention describes a typical vertical wind tunnel in which the user attempts to contain the wind stream without any aids. Firstly, in order to use this vertical wind tunnel, it must be experienced by the user and, secondly, the wrong aerial acrobatic trick will not result in injury to the user.

Also known is US Patent No. 6929480, a parachute simulator and a parachute training process using said simulator. In addition to the vertical wind tunnel, the present invention includes such struts that keep the tunnel user in a certain position. Such straps limit the user's maneuverability, as they are intended to keep the user in a single, stable position, which is important for parachutists, but not for athletes practicing aerobatics.

Also known is US patent 5209702, a free fall simulator. Also in this invention, in addition to the vertical wind tunnel, the user can be secured in ropes designed to keep the user in a stable position in the vertical wind stream. The ropes used do not allow aerobatic exercises.

Known technical solutions are not capable at the same time of ensuring free movement of the user in vertical wind flow and protection against trauma in case of incorrect aerobic exercise.

Technical problems and their solution

The object of the invention is to improve the safety of aerial acrobatics in the vertical wind tunnel without losing the freedom of the user to perform aerobatic exercises.

The goal is accomplished by creating a flight simulator - a vertical wind tunnel that includes a metal frame, engine and propeller attached to it, an air intake system, an air straightener and a safety screen, or some other device to create a vertical air stream, such as a group of fans. The present invention is characterized in that at least two columns 10 are provided on the sides of the vertical wind tunnel, between which there is a slanted hanging system in the wind flow of the wind tunnel. Such a hanging system ensures safe aerial acrobatics exercises. The simulator user may not fall out of the wind stream during the wrong aerobic exercise and may continue with the next exercise. This system of attachment significantly reduces the trauma of the trainer user, since the user is not able to fall out of the wind stream and thus injure himself against other parts of the trainer.

This invention can also be used in wall-to-wall and circular vertical wind tunnels. In this variant, the flight descent system can be placed inside the tunnel by mounting it on the walls of the flight area.

This hanging system comprises a disc frame which is slidably mounted between the columns by means of rails. Said disk frame has a second disk disposed in a plane therewith, in a circumferential manner, in a circular rotation relative to the disk frame. Sliding rotation can be achieved by a pair of slip or rolling friction designs of any design, such as a roller bearing system with ball bearings between the two discs, which allow the two discs to move together. Similarly, a slider system can be used, for example, reduced friction plates may be placed between the two discs to allow the two discs to move together. Alternatively, a magnetic levitation system can be used, with permanent magnets positioned on each of the disks, the orientation of which ensures that the two discs are aligned with a small gap. This spacing ensures a sliding rotation between the two discs with minimal friction. In addition, one or more support rods exiting the second disk toward its center are shirredly connected to the third disk at their ends toward the center of the second disk by providing a chamfered rotation of the third disk. These bars may be replaced by another material, such as stretched rubber. Bearings of any type, such as roller bearings, in which the inner bearing rim is attached to the support rod (s) and the outer rim attached to the third disk, or vice versa, can be used as shamers. In addition, the third disk is concentric with respect to the second disk. Said third disk has a fourth disk disposed in a circumferential plane therewith in a circumferential rotation relative to the third disk. The slider rotation is provided by the same means as between the disk frame and the second disk. In addition, the fourth disc contains links that the user of the attraction attaches to.

A flight cushion is located at each end of the slip zone for each column of the flight simulator to cushion the hanging system at the lowest and highest points of the column's slip zone. In addition, the columns at their upper ends are interconnected by at least one transverse bar. For extra security and rigidity of the trainer, the columns can be tensioned in ropes. Instead of ropes, metal bars may be used. When using more than two vertical columns, the load-bearing capacity of the structure may be sufficient to prevent the use of struts or cables.

In addition, the trainer may include a counterweight coupled to the pendant system by means of at least one rope passed over a pulley at the top of the columns. The functional importance of counterweight is to lighten the weight of the lust system. This function can also be achieved by increasing the area of the hanging system relative to the airflow of the wind tunnel. Thus, the wind flow itself will compensate for the weight of the lust system and make it weightless, thus neutral to the force of gravity.

The exercise equipment offered can be used in both outdoor and indoor wind tunnels.

Concise description of drawings

The following drawings illustrate the present invention:

Fig. 1 - aerobic exercise apparatus with vertical wind tunnel 1 and a hanging system 20; Fig. 2 - a complete aerobics training apparatus, further comprising a training platform 40, soundproofing screens 41 and a ladder 42;

Figures 3A and 3B are aerial aerobics training columns 10 with a hanging system 20 tm hanging system 20 in close-up together with sliders 22;

Fig. 4 is an aerobic exercise machine with a hanging system 20 in which the exercise user 30 is in its initial position.

FIG. Figure 1 shows an aerobatic exercise machine with a vertical tunnel 1, shown in a small cross-section, to see its constituent parts, such as a metal frame 2 or frame, an engine 3 driving a propeller 4 attached thereto, an air intake system 5, an air flow rectifier 6 and a safety screen 7. At the same level as the safety screen 7 is a platform 40 (shown in Figs. 2 and 4), on which airbags can be placed and through which the user 30 enters the vertical wind tunnel 1. It should be noted wind tunnel 1 is understood to be a wind flow projection or wind flow A, which exits the air straightener and is directed up to the transverse rods 13 of the columns 10. This construction is characterized in that at least two columns 10 are arranged on the sides of the vertical wind tunnel 1, between which the wind tunnel wind stream A has a slide-mounted hanging system 20. The semi-hanging system 20 resembles iroskopa structure. The trainer further comprises a counterweight 14 which is connected to the hanging system 20 by at least one rope 15 passed over a pulley 16 located at the upper end of the columns 10. The pulley 16 may also be located on one of the columns 13 of the columns 10. tensioned in ropes 17, ensuring rigidity of the entire structure.

Fig. 2 illustrates an aerobic exercise apparatus further comprising a training platform 40, soundproofing screens 41, and a ladder 42. The said platform 40 may include airbags and other safety accessories.

FIG. 3A and 3. shows a hanging system 20 in close-up. The present hanging system 20 is slidably mounted B on each column 10 by guide rails 22. The given sliding structure may be executed in such a way that the function of the column 10 is performed by a rail, while the function of the guide 22 is performed by a wheel carriage or any other structure that provides a sliding reciprocal movement of the hanging system through columns 10. In addition, a disk frame 21 is mounted between the rails, which is in the working position in the wind flow A. The disk frame 21 is secured to the rails 22 by means of a bar 29 design. In the disk frame 21, a second disk 23 is disposed in one plane inside it in a circumferential circumference relative to the disk frame 21 and is provided by a bearing structure, i.e., roller bearings or other disposed between the frame 21 and the second disk 23. configuration bearings. This rotational C motion can also be provided by a magnetic levitation system as well as a simple slider and guide system. From the second disk 23 towards its center exits at least two support rods 24, which at their ends are shirringly connected via third shafts 26 to the center of the second disk 23 with a concentric rotation D of the third disk 25.

The said shamirous rotation D can be implemented by means of bearings. The abutment bars 24 may be of various numbers and shapes. In addition, said third disk 25 has a fourth disk 27 disposed in a circumferential plane therebetween, which is rotatable E relative to the third disk 25. The same rotary rotation E is provided by the same means as the rotary rotary C above. The fourth disk 27 contains links 28 to which the amusement user 30 attaches (see Figures 1, 2 and 4).

Fig. 4 illustrates an aerobic exercise machine with a craving system 20, in which the exercise user 30 is in its initial position or state when the user 30 has entered the training device and has secured itself to the craving system 20 by means of links 28. When wind tunnel 1 is activated and wind flow A appears, the user is usually already in the position shown in Figs.

Description of the best embodiment of the invention

One variant of an acrobatic trainer is an air acrobatic trainer comprising a vertical tunnel 1 comprising a metal frame 2 or a frame, an engine 3 which drives a propeller 4 attached thereto, an air intake system 5 as a treadmill diffuser, an air flow straightener 6 with blades are curved both axially and radially of the air straightener 6 so as to sense the turbulent airflow generated by the propeller 4 and to deflect it laminarly across the blade surface to the outlet of the air straightener 6 such that the airflow A from the air straightener 6 is fully straightened. Above the air straightener 6 is a safety screen 7. A platform 40 (see Figs. 2 and 4) is arranged on a level with the safety screen 7, on which airbags can be placed. In addition, sound-insulating screens 42 and ladders 42 are installed, leading the user 30 to platform 40. Two columns 10 are provided on the sides of the vertical wind tunnel 1, between which a hanging system 20 is mounted in the wind tunnel wind stream A. gyroscope construction. The given hanging system 20 is slidably attached to each column 10 by means of guides 22. This sliding design is executed in such a way that the function of the column 10 is performed by the rail, while the function of the guide 22 is performed by the wheel carriage. Said hanging system 20 can move within the sliding zone 11 and at the end of each sliding zone are located damping elements 12. Said damping element 12 is a set of springs. In addition, a disk frame 21 is mounted between the rails 22 which is in the working position in the wind flow A. The disk frame 21 is secured to the rails 22 by means of a bar 29 design. The disk frame 21 has a second disk 23 disposed in a plane therewith, circumferentially, in a circumferential rotation C relative to the disk frame 21, provided with a bearing structure, i.e., roller bearings between the frame 21 and the second disk 23. From the second disk 23 towards its center, two sets of struts 24 are connected at their ends to the center of the second disk 23 via chamfer 26 and are hingedly connected to the third disk 25 concentricly disposed on the second disk 23 to provide a chamfered rotation of the third disk 25. D is realized by means of bearings. The abutment bars 24 may be of various numbers and shapes. In addition, said third disk 25 has a fourth disk 27 disposed in a plane therewith, in circumferential direction, with respect to the third disk 25, in a sliding rotation E. The said sliding rotation E is provided similarly to the sliding rotation C by means of a bearing structure. the straps 28 to which the amusement user 30 attaches (see Figures 1, 2 and 4). The trainer further comprises a counterweight 14 which is connected to the hanging system 20 by means of two ropes 15 which are passed over the pulleys 16 at the upper end of the columns 10. In addition, two tensioned ropes 17 are connected at the upper end of each column 10. on earth.

The realization of the above-defined invention is not limited to the examples described herein. Those skilled in the art can alter and modify the particular embodiment of the invention without departing from the spirit and scope of the claims. For example, the technical solutions described above can also be used in stationary wind tunnels.

Claims (10)

An air acrobatic trainer comprising: a vertical wind tunnel (1) comprising a metal frame (2); an engine (3) driving a propeller (4) attached thereto; an air intake system (5); air stream straightener (6) and a safety screen (7), characterized in that at least two columns (10) are arranged on the sides of the vertical wind tunnel, between which there is a slanted hanging system (20) in the wind tunnel wind stream (A). Air acrobatics trainer according to claim 1, characterized in that the hanging system (20) comprises a disc frame (21) which is slidably mounted (B) between the columns (10) by means of the guides (22), a second disk (23) disposed in the same plane with the disk frame (21) in a circumferential manner in rotation (C) relative to the disk frame (21) with at least two exits from the second disk (23) towards its center; support rods (24) which at their ends towards the center of the second disk (23) are chamferedly connected to the third disk (25) by means of a chamfer (26) providing a chamferable rotation (D) of the third disk (25); 25) concentric with respect to the second disc (23); a fourth disk (27) disposed in a circumferential plane with said third disk (25) in a circumferential rotation (E) relative to the third disk (25); said fourth disk (27) having links (28) to which the amusement user (30) will attach. Air acrobatic trainer according to Claim 1, characterized in that the roller system (B and C) of the disk frame (21), the second disk (23), the third disk (25) and the fourth disk (27) is provided by a roller bearing system. . Air acrobatics trainer according to claim 1, characterized in that the rotary system (B and C) of the disk frame (21), the second disk (23), the third disk (25) and the fourth disk (27) is provided by a slider system. . Air acrobatics trainer according to claim 1, characterized in that said sham rotation (D) is provided by the construction of shamers, such as bearings. Air acrobatic trainer according to Claim 1, characterized in that the struts (24) are replaced by tensioned rubber. Air acrobatic trainer according to any one of the preceding claims, characterized in that each column (10) is provided with a cushioning element (12) at each end of the sliding zone (11) to dampen the impact of the hanging system (20) on the columns (10). at the lowest and highest points of the sliding zone (11). Air acrobatic trainer according to any one of the preceding claims, characterized in that the columns (10) are interconnected at their upper ends by at least one cross bar (13). Air acrobatics trainer according to any one of the preceding claims, characterized in that the trainer additionally comprises a counterweight (14) which is connected to the hanging system (20) by means of at least one rope (15) passed over the column (10). ) for the pulley at the upper end (16). Air acrobatic trainer according to any one of the preceding claims, characterized in that the columns (10) are tensioned in ropes (17).