KR102178114B1 - A Vent Valve for a Reusable Launch Vehicle - Google Patents

Abstract

The present invention relates to a vent valve for a reusable launch vehicle, which enables safe recovery of a reusable launch vehicle. According to the present invention, the vent valve for a reusable launch vehicle comprises: a cowl which protrudes from an outer wall of the launch vehicle and of which the cross-sectional area gradually expands from the top to the bottom of the launch vehicle; and an opening and closing door which is located on the bottom of the cowl and is opened by airflow applied from the bottom when the reusable launch vehicle descends to allow the airflow from the outside of the launch vehicle to the inside of the launch vehicle.

Description

A Vent Valve for a Reusable Launch Vehicle}

The present invention relates to a vent valve for a reused projectile.

Economics has emerged as an important factor in space development, and interest and research on reusable launch vehicles as an important means to secure such economics are constantly increasing.

From this point of view, many launch vehicle companies are pursuing projectile development with the aim of recovering and reusing the first stage of launch vehicle.

On the other hand, the projectile is provided with an internal compartment (empty space, for example, a tank connection, fairing, etc.), and the pressure in this space is similar to atmospheric pressure while waiting for launch on the ground. As the projectile rises, the external pressure of the compartment decreases rapidly, and if the internal pressure of the compartment is not properly lowered, the pressure difference inside and outside the compartment increases and an additional load acts on the compartment structure.

In general, a vent valve is installed in the compartment to open when the internal and external pressures increase above a certain level to lower the internal pressure. However, conventional vent valves are designed to be opened only in one direction, allowing flow to flow from inside to outside, but are designed to prevent contamination by outside air or inflow of rainwater by blocking flow from outside to inside. have.

However, since the conventional projectile is equipped with the above-described vent valve, when the projectile reaches the highest point, the pressure inside and outside the compartment has a similar value as 0 atm. At this time, as the projectile descends for recovery (for reference, the first stage of the reused projectile lands on the ground in the same posture as when ascending after the mission ends), the pressure outside the compartment rapidly increases from 0 to 1 atm Conventional vent valves can only flow in one direction, that is, from inside to outside, so that external air from the compartment cannot enter the interior of the compartment. Therefore, the external pressure of the compartment becomes higher than that of the interior, and a tremendous load is applied to the compartment. In particular, the structure of the projectile is designed to be more susceptible to buckling than tension, so when the external pressure is higher than the internal pressure, a serious problem occurs.

In order to solve this problem, it is possible to operate the vent valve only during the descent of the reused projectile by using an electrical device, but there is a problem that the structure becomes very complicated.

US 8678321 (2014. 03. 25.)

The present invention is to solve the problems of the prior art as described above, and an object of the present invention is to enable the flow from the outside of the compartment to the inside even when the reused projectile descends with a simple structure, thereby enabling safe recovery of the reused projectile. It is to provide a vent valve for reusable launch vehicles.

In order to achieve the above object, the vent valve for a reusable launch vehicle according to an embodiment of the present invention is a vent valve used in a reusable launch vehicle, protruding from the outer wall of the launch vehicle, and A cowl whose cross-sectional area gradually expands from the top to the bottom, and is located on the bottom of the cowl, and is opened by the airflow applied from the bottom when the reusable projectile descends from the outside of the projectile to the inside of the projectile. It includes an opening and closing door through which air flow is introduced.

In addition, the opening and closing door may be equipped with a first elastic member for applying an elastic force to the side to always close the opening and closing door.

In addition, the cowl can be opened and closed, and is opened by the airflow applied from the bottom when the reused projectile descends, and air flow is introduced from the outside of the projectile into the inside of the projectile.

In addition, the cowl may be equipped with a second elastic member that exerts an elastic force in a direction in which the cowl is always closed.

In addition, the cowl includes an extension part that surrounds the bottom of the cowl and extends to the lower portion of the projectile, and forms an empty space with the surface of the projectile under the opening and closing door.

In addition, the second elastic member connects the upper end of the cowl to the surface of the projectile.

As a vent valve used in a reused projectile according to another embodiment of the present invention, a cowl protruding from the outer wall of the projectile and gradually expanding its surface area from the top to the bottom of the projectile, and the cowl always closing It includes an elastic member for applying an elastic force.

In addition, the reused projectile according to the present invention may be provided with a vent valve for a reused projectile as described above.

The vent valve for a reused projectile according to an embodiment of the present invention having the above configuration has the following effects.

The simple structure enables the flow from the outside of the compartment to the inside of the compartment when the reused projectile descends, enabling safe recovery of the reused projectile.

On the other hand, the present invention is not explicitly described, but of course includes other effects that can be expected from the above-described configuration.

1 is a schematic diagram of a vent valve for a reused launch vehicle according to the present invention.
2 is an embodiment of the vent valve of FIG. 1.
3 is a modified example of the vent valve of FIG. 2.
4 is a view for explaining the operation of the vent valve of FIG.
5 is a view for explaining the operation of the vent valve of FIG. 2.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those of ordinary skill in the art can practice the present invention. However, the present invention may be implemented in various different forms and is not limited to the embodiments described herein.

FIG. 1 shows a vent valve for a reused projectile according to an embodiment of the present invention, FIG. 2 shows a detailed configuration of the vent valve for a reused projectile of FIG. 1, and FIG. A modified example of the vent valve is shown.

1 and 2, a vent valve 1 for a reused projectile 100 according to an embodiment of the present invention includes a cowl 11 and an opening and closing door 13 .

The cowl 11 protrudes from the outer wall 101 of the projectile 100 and its cross-sectional area gradually expands as it goes from the top to the bottom of the projectile 100. For reference, in the present specification, the upper side of the projectile 100 refers to a side relatively close to the nose part 101 of the projectile 100, and the lower side of the projectile 100 refers to the engine nozzle of the projectile 100 It refers to the side relatively close to (102).

The opening and closing door 13 is located on the bottom surface 12 of the cowl 11 and is opened by the air flow Fd applied from the bottom when the reusable projectile 100 descends, and the projectile 100 is opened from the outside of the projectile 100. Allows air flow (Fd) to flow into the interior.

A first elastic member 14 is mounted on the opening/closing door 13 to apply an elastic force toward the opening and closing door 13 at all times. The first elastic member 14 may be a spring. Accordingly, when no force is applied, the first elastic member 14 applies an elastic force to maintain the opening and closing door 13 in a closed state. On the other hand, since the mechanical coupling between the first elastic member 14 and the opening and closing door 13 can be connected by a variety of known coupling methods, a further description thereof will be omitted (hereinafter, the same applies to the second elastic member).

Hereinafter, the operation of the vent valve 1 for a reusable projectile according to an embodiment of the present invention will be described.

When the reusable projectile 100 rises, as shown in FIG. 4, the air flow Fa does not substantially act on the opening and closing door 13 of the vent valve 1 of the present invention, and the opening and closing door 13 is closed. Stays in the state. That is, since the air flow Fa due to the rise of the projectile 100 is deflected along the side without facing the bottom 12 of the cowl 11, the air pressure due to the air flow Fa is substantially in the opening and closing door 13 Does not work.

Next, when the reused projectile 100 descends, as shown in FIG. 2, air flow acts on the bottom surface 12 of the cowl 11 by pneumatic pressure, and at this time, the elastic force of the first elastic member 14 is applied. While overcoming, the opening and closing door 13 is opened inward. Accordingly, it is possible to match the internal pressure of the compartment to the external pressure, thereby preventing an excessive load from acting on the compartment.

3 shows a modified example (2) of the vent valve for a reused projectile according to an embodiment of the present invention.

As shown in FIG. 3, the vent valve 2 is capable of opening and closing the cowl 11 in addition to the configuration of the vent valve 1 described above, so that the air flow applied from the lower side when the reusable projectile 100 descends. The cowl 11 is opened by (Fd) and air flow is introduced into the interior of the projectile 100 from the outside of the projectile 100.

The cowl 11 is provided with a second elastic member 15, and the second elastic member 15 exerts an elastic force on the side where the cowl 1 is always closed. And the second elastic member 15 is mounted so as to connect the upper end of the cowl 1 to the surface 101 of the projectile 100.

On the other hand, the cowl 11 extends downward of the projectile 100 while surrounding the bottom 12 of the cowl, so that the empty space S together with the surface 101 of the projectile 100 under the opening and closing door 13 It has an extension part 16 to form. This extension 16 has its upper end connected to the bottom surface 12 of the cowl and its both ends connected to the projectile surface 101.

Hereinafter, the operation of the vent valve 2 for a reused projectile according to a modified example of an embodiment of the present invention will be described.

When the reusable projectile 100 rises, the vent valve 2 has an air flow Fa in the opening and closing door 13 and the empty space S of the vent valve 2 of the present invention, as shown in FIG. 5. Since it does not work substantially, the opening and closing door 13 and the cowl 11 remain closed. In other words, since the air flow Fa due to the rise of the projectile 100 does not substantially flow into the bottom surface 12 and the empty space S of the cowl 11, it is deflected along the side of the cowl 11, Pneumatic pressure due to air flow does not substantially act on the opening and closing door 13 and the extension 16 of the cowl.

Next, when the reused projectile 100 descends, as shown in FIG. 3, the air flow Fd acts as a pneumatic action on the cowl bottom 13, at which time the elastic force of the first elastic member 14 is overcome. While doing the opening and closing door 13 is opened. In addition, the air flow Fd acts on the extension part 16 of the cowl through the empty space S to overcome the elastic force of the second elastic member 15 and lift the cowl 11 to open it. Accordingly, when the reusable projectile 100 descends, the internal pressure of the compartment can be matched to the external pressure, thereby preventing excessive load from acting on the compartment.

On the other hand, in the present modified example, in addition to the opening and closing door 13, the vent valve 2 further including the openable cowl 11 has been described, but the open/closeable cowl 11 as described above without the opening and closing door 13 The vent valve could be configured to have only ).

Although the preferred embodiments of the present invention have been described in detail above, the scope of the present invention is not limited thereto, and various modifications and improvements by those skilled in the art using the basic concept of the present invention defined in the following claims are also present. It belongs to the scope of rights of

1,2...vent valve
11... cowl
13...open and close doors
14...first elastic member
15...second elastic member
16... extension of the cowl
Fa,Fb...air flow

Claims (9)

As a vent valve used in a reusable launch vehicle,
A cowl protruding from the outer wall of the projectile and gradually expanding its cross-sectional area from above to below the projectile, and
An opening and closing door that is located on the bottom of the cowl and is opened by the air flow applied from the bottom when the reused projectile descends to allow air flow to flow into the projectile from the outside of the projectile
Containing
Vent valve for reusable projectiles. In claim 1,
The opening and closing door is equipped with a first elastic member that acts on an elastic force toward the side where the opening and closing door is always closed.
Vent valve for reusable projectiles. In paragraph 2,
The cowl is openable and closed, and is opened by the airflow applied from below when the reusable projectile descends, so that the airflow is introduced from the outside of the projectile into the inside of the projectile.
Vent valve for reusable projectiles. In paragraph 3,
The cowl is equipped with a second elastic member that applies an elastic force to the side where the cowl is always closed.
Vent valve for reusable projectiles. In claim 4,
The cowl,
An extension part surrounding the bottom of the cowl and extending to the bottom of the projectile to form an empty space with the surface of the projectile under the opening and closing door
Vent valve for reusable launch vehicle having a. In claim 4,
The second elastic member is a vent valve for a reused projectile that connects the upper end of the cowl with the surface of the projectile. As a vent valve used for reusable projectiles,
A cowl protruding from the outer wall of the projectile and gradually expanding its surface area from above to below the projectile, and
An elastic member that applies an elastic force to the side where the cowl is always closed
Including,
The cowl extends to the lower portion of the projectile while surrounding the bottom of the cowl to form an empty space with the surface of the projectile
Including
Vent valve for reusable projectiles. In clause 7,
The elastic member is a vent valve for reusable projectiles connecting the upper end of the cowl with the surface of the projectile. A reused projectile provided with a vent valve for a reused projectile according to any one of claims 1 to 8.

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