JPH0427759Y2 - - Google Patents

Description

[Detailed description of the invention] [Field of industrial application] The present invention is a device for gliding that is equipped with cloth wings that take in air from an air intake port and become inflated to form an airfoil shape. Regarding paragliding.

[Conventional technology]

9 and 10 show a cross-sectional view and a longitudinal cross-sectional view of the wing 1 of a typical paraglider. This wing 1 is entirely made of synthetic fiber cloth, and includes an upper surface 2, a lower surface 3, a plurality of ribs 4 extending vertically between the upper surface 2 and the lower surface 3, and each rib between the upper surface 2 and the lower surface 3. 4
It has a plurality of small chambers 5 respectively formed between. As shown in FIG. 10, each rib 4 has ventilation holes 7 that communicate between adjacent chambers 5.
is provided.

Here, in a conventional paraglider, an air intake port 6 was provided at the front end of every small chamber 5.

The rib 4 has an airfoil shape for obtaining lift, in other words, it has a slightly upwardly curved streamline shape, so that when air is taken into the small chamber 5 from the air intake port 6, the small chamber 5 and the blade 1 forms an airfoil. In addition, 9 is a suspension line connected to a predetermined rib among the plurality of ribs 4.
It is. Note that in many cases, the hanging ropes 9 are connected to every other rib 4, and two small chambers 5 each separated by the ribs 4 connected to the hanging ropes 9 are called one cell. One small chamber 5 is called a half cell.

[Problem that the invention attempts to solve]

In the conventional paraglider, as mentioned above, all the small chambers 5 have air intake ports 6, and the existence of these air intake ports 6 increases air resistance, so that the original function of the airfoil can be fully obtained. I had a problem that I couldn't do it.

The present invention was made in order to solve the above-mentioned conventional problems, and it is an object of the present invention to provide a paraglider that can reduce performance deterioration due to the presence of air intake holes in the wings.

[Means for solving problems]

The paraglider according to the present invention includes an upper surface, a lower surface, a plurality of ribs extending between the upper surface and the lower surface, a plurality of small chambers formed between the upper surface, the lower surface, and the ribs, and the installed on the ribs,
In a paraglider equipped with a fabric wing having a ventilation hole that communicates between the adjacent chambers separated by the ribs, some of the plurality of chambers are provided with air intake holes. First, an air intake port is provided in the remaining small chamber, and the air is supplied from the small chamber provided with the air intake port to the ventilation hole that communicates the small chamber without the air intake port with the small chamber provided with the air intake port. A check valve is provided that allows air to flow into a small chamber without an intake port, but does not allow air to flow out in the opposite direction.

[Effect]

In the present invention, air flows into a chamber not provided with an air intake port from a chamber provided with an air intake port through a check valve and a vent hole. Moreover, the air that has flowed into the small chamber without an air intake port cannot flow out of the small chamber due to the function of the check valve. Therefore, even a small chamber without an air intake port is filled with a sufficient amount of air, and the airfoil shape can be maintained.

Since this small chamber without an air intake forms a complete airfoil due to the absence of an air intake, it can maximize its function as an airfoil and improve the flight performance of the paraglider. can.

〔Example〕

Hereinafter, the present invention will be explained based on embodiments shown in the drawings.

1 to 4 show an embodiment of a paraglider according to the present invention. Reference numeral 1 denotes a wing made of synthetic fiber cloth, which includes an upper surface 2, a lower surface 3, a plurality of ribs 4 provided between the upper surface 2 and the lower surface 3, and a plurality of ribs 4 between the upper surface 2, the lower surface 3, and the ribs 4. It has a plurality of small chambers 5a and 5b formed therein.

Among the plurality of small chambers, two small chambers 5a at each end of the wing 1 (four in total) are not provided with an air intake port at their front ends, and the other small chambers 5b are provided with an air intake port 6 at their front ends. It is provided. As shown in FIGS. 2 to 4, each rib 4 is provided with a ventilation hole 7 that communicates between adjacent chambers 5a and 5b partitioned by the rib 4.

On the surface of the small chamber 5a side of the rib 4 that partitions the small chamber 5a where the air intake port 6 is not provided and the small chamber 5b where the air intake port 6 is provided, one end portion of the sheet-shaped valve body 8a of the check valve 8 is provided. is fixed by sewing. This valve body 8a has a slightly larger area than the ventilation hole 7, and is adapted to open and close the ventilation hole 7. A weight 20 is attached to the lower end of the valve body 8a.

The upper ends of suspension lines 9 are connected to predetermined ribs of the plurality of ribs 4, and the lower ends of these suspension lines 9 are connected to a harness for supporting the operator 10. 11 via a ring connector 12 and a connecting band 13 (riser). A stabilizer 15 is provided at the wing tip 14 of the wing 1 . Further, a control line 16 is connected to the left and right rear portions of the wing 1 .

In this paraglider, air intake 6
If the pressure in the small chamber 5b adjacent to the small chamber 5b provided with the air intake port 6 is higher than the pressure in the small chamber 5a not provided with the air intake port 6, the valve body 8a closes the ventilation hole 7 as shown in FIG. Since it is opened, air flows into the small chamber 5a from the small chamber 5b through the ventilation hole 7. Also,
A small chamber 5a that is not provided with an air intake port 6 is smaller than an adjacent small chamber 5 that is provided with an air intake port 6.
When the pressure is higher than b, the valve body 8a closes the ventilation hole 7 as shown in FIG. It cannot leak outside.

Therefore, even the small chamber 5a, which is not provided with the air intake port 6, is filled with a sufficient amount of air and can maintain the airfoil shape. And this air intake 6
The small chamber 5a, which is not provided with the air intake port 6, can form a complete airfoil shape due to the absence of the air intake port 6, and can maximize the function of the airfoil and improve the flight performance of the paraglider.

In this embodiment, a weight 2 is attached to the lower end of the valve body 8a.
0 is attached, and the gravity acting on this weight 20 acts as a force to force the valve body 8a to close the ventilation hole 7. Air outflow to the small chamber 5b provided with the air intake port 6 can be more reliably prevented.

5 to 8 show other embodiments of the check valve according to the present invention.

In this embodiment, the check valve 21 has a valve body 2
2 and a net-like valve body regulating body 23. The valve body 22 has a generally circular sheet shape, and its peripheral edge is fixed around the ventilation hole 7 on the side of the small chamber 5a where the air intake port 6 is not provided. The valve body 22 is provided with radial cuts 22a, thereby forming a plurality of fan-shaped tongues 22b extending from the peripheral edge of the ventilation hole 7 toward the center. The valve body regulating body 23 has a small chamber 5b provided with an air intake port 6.
It is fixed to the rib 4 on the side so as to cover the entire ventilation hole 7.

In this embodiment, when the pressure in the adjacent small chamber 5b provided with the air intake port 6 is higher than that in the small chamber 5a not provided with the air intake port 6, the valve body 22 is closed as shown in FIG. Since the tongue piece 22b bends toward the inside of the small chamber 5a where the air intake port 6 is not provided and opens the ventilation hole 7, air flows into the small chamber 5a from the small chamber 5b through the ventilation hole 7.
Since the valve body regulating body 23 has a net shape, it does not obstruct air flow at this time).

In addition, the small chamber 5 which is not provided with the air intake port 6
If the pressure in chamber a is higher than the adjacent chamber 5b provided with air intake port 6, the tongue piece 22b of valve body 22 is provided with air intake port 6, as is clear from FIG. Even if an attempt is made to turn toward the small chamber 5b, the valve body regulating body 23 restricts the bending, so in order to close the ventilation hole 7, the air intake port 6 is closed as described above.
Air that has flowed into the small chamber 5a that is not provided cannot flow out of the small chamber 5a.

Therefore, as in the case of the previous embodiment, the small chamber 5a, which is not provided with the air intake port 6, is filled with a sufficient amount of air, and the airfoil shape can be maintained. The small chamber 5a, which is not provided with the air intake port 6, can form a complete airfoil shape due to the absence of the air intake port 6, and can maximize the function of the airfoil shape.

In the above embodiment, two small chambers without an air intake are provided at each end of the wing, but in the present invention, the number and installation position of the small chambers without an air intake are determined according to the embodiment. It is not limited to that of.

[Effect of idea]

As mentioned above, the paraglider according to the present invention is
This has the excellent effect of reducing the performance degradation caused by the air intakes of the wings and improving the flight performance of the paraglider.

[Brief explanation of drawings]

Fig. 1 is a perspective view showing an embodiment of a paraglider according to the present invention, Fig. 2 is a vertical sectional view of the wing taken along the - line in Fig. 1, Fig. 3 is a sectional view taken along the - line in Fig. 2, and Fig. 4 is a sectional view taken along the - line in Fig. 2. The figure is a sectional view showing the open state of the check valve in this embodiment at the same cross-sectional position as in FIG. 3, and FIG. 5 shows a small chamber without an air intake port in another embodiment of the present invention. 6 is a sectional view showing the state shown in FIG. 5 from the back side, FIG. 7 is a sectional view taken along the - line in FIG. FIG. 9 is a cross-sectional view showing the state at the same cross-sectional position as FIG. 7, FIG. 9 is a cross-sectional view showing a small chamber in the wing of a general paraglider, and FIG. 10 is a cross-sectional view taken along the - line in FIG. 9. 1...Blade, 2...Top surface, 3...Bottom surface, 4...Rib, 5...Small chamber, 6...Air intake port, 7...Vent hole, 8...Check valve, 8a...Valve body , 20...
Weight, 21... Check valve, 22... Valve body, 23...
Valve regulation body.

Claims (1)

[Claims for Utility Model Registration] 1. An upper surface, a lower surface, a plurality of ribs extending between the upper surface and the lower surface, and a plurality of ribs formed between the upper surface, the lower surface, and each of the ribs. In a paraglider equipped with a cloth wing having a small chamber and a ventilation hole provided in the rib and communicating between the adjacent small chambers partitioned by the rib, one of the plurality of small chambers One small chamber is not provided with an air intake port, the remaining small chambers are provided with an air intake port, and the ventilation hole that communicates the small chamber without the air intake port with the small chamber provided with the air intake port,
A paraglider characterized in that a check valve is provided that allows air to flow from the small chamber provided with the air intake port to the small chamber not provided with the air intake port, but does not allow air to flow out in the opposite direction. 2. A check valve is a sheet-shaped valve body that is installed on the side of a small chamber that does not have an air intake port and that opens and closes the ventilation hole based on the pressure difference between the small chamber that does not have an air intake port and the small chamber that has an air intake port. Claim 1 comprising
Paragliding as described. 3. The paraglider according to claim 2, wherein a weight is attached to the lower end of the valve pair. 4. A check valve consists of a valve body that has a plurality of sheet-shaped tongues that open and close ventilation holes depending on the pressure difference between a small chamber without an air intake port and a small chamber with an air intake port; The tongue piece is provided on the side of the small chamber where the air intake port is not provided, and the tongue piece allows opening to the side of the small room where the air intake port is provided and allows air to circulate, but the tongue piece is provided on the side of the small room where the air intake port is not provided. a valve body regulating body that prevents the tongue from opening toward the small chamber in which the air intake port is not provided; A paraglider according to claim 1, characterized in that the ventilation holes are closed. 5. The paraglider according to claim 4, wherein the valve body regulating body is a net-like material.