KR20030052124A - a - Google Patents

Abstract

PURPOSE: A mechanical separating valve is provided to prevent the leakage of an injection and a discharge of a propellant. CONSTITUTION: A body(2) for a ground has a groove(8) in the front side. A spring(6) is adjusted with a separating load in the back of the body for the ground. A spring guide(5) is installed in the outside of the spring, formed with a screw portion(5') therein and installed with a ball(4) in the front side. A separating load adjusting portion(7) adjusts the separating load of the spring by forming a screw portion(7') to be combined with the screw portion of the spring guide. After separating a valve, the spring is reusable by inserting the ball.

Description

Regenerative mechanical release valve with adjustable separate load {a}

The present invention relates to a regenerative mechanical release valve that can control the separation and load of the injection and discharge from the scientific research / exploration rocket and satellite launch projectile to the connection with the ground support equipment, and is responsible for the separation between the projectile and the support equipment during launch. It is about.

Conventional rockets and satellite launch vehicles are used as connection valves when the propellant is supplied to the ground support facility before launch, as shown in FIGS. 5 and 6, the lower body and the ground body of the projectile body 1. The fastening device using the breaking force of the metal which forms the protrusions 1 'and 2' on the upper side of 2) and fastens the protrusions 1 'and 2' using the clip-shaped fastener 10 is proposed. It became.

7 and 8, protrusions 1 ′ and 2 ′ are formed on the lower side of the projectile body 1 and the upper side of the ground body 2, and the fastener 11 of the concave-convex shape is formed. Using a fastening device using the elasticity of the metal to fasten the protrusions (1 ') (2') using.

However, the existing two methods are the products that can be used only once as valves using the same mechanical release method but using the breaking force of the metal or the elasticity of the metal as it is.

The present invention relates to a mechanical release valve for injecting and discharging propellant from the scientific research / exploration rocket and the launch vehicle for satellite launch without leakage and propelling the discharge between the projectile and the support system during launch.

As a requirement for the present invention, the leakage of the valve should not occur when the propellant contacts, and it should be configured to be 100% separable because it is a valve used for rockets, and should be smooth when the valve is mounted. It should be changeable and the valve should be designed for reuse.

The present invention is a valve designed as a component of a rocket and a satellite launch vehicle as a component of a rocket currently designed, manufactured, or launched in Korea. The valve's role is to inject and discharge propellant and to allow separation between the projectile and ground support at launch.

The valve designed for this reason is a mechanical release valve designed to be separated by a constant pulling force in a fully mechanical forced release.

However, the present invention is not only a one-time configuration is configured to be reusable and can adjust the separation load according to the rocket conditions.

The present invention is to make a product that can be used continuously and semi-permanently to the problem of convenience of separation, installation and one-time.

The present invention is a valve that is used as a connecting valve when the projectile is supplied from the ground support equipment before launch, and the injection and discharge of the propellant, and after the injection of the propellant is finished, the connection between the ground support equipment and the projectile is 100% separated. It is for.

1 is a configuration diagram before assembling the mechanical release valve of the present invention

2 is a state in which the tightening force is applied to the mechanical release valve of the present invention

3 is a configuration diagram completed assembly of the present invention

4 is an explanatory view of the separation load adjustment of the present invention

Figure 5 is a configuration before the conventional mechanical separation part separation

Figure 6 is a schematic view after separating the conventional mechanical separation part

Figure 7 is another configuration before mechanical separation part separation

Figure 8 is a configuration after the separation of another conventional mechanical separation part

[Explanation of symbols for main parts of drawing]

1 body for projectile 2 body for ground

3: O-ring 4: ball

5: spring guide 6: spring

5 ', 7': Thread part 7: Separate load adjusting part

As shown in FIGS. 1 to 4, the valve is composed of a projectile body 1 and a ground body 2, and the ground body 2 is fitted to the projectile body 1.

The connection between the projectile body (1) and the ground body (2) by using a general O-ring (3) when the valve is connected by pressing by the appropriate force to the internal airtight of the valve.

A groove 8 is formed at the front outer side of the ground body 2 and a spring 6 is inserted at the rear of the ground body 2 so that the load can be adjusted through the separate load adjusting unit 7.

On the outside of the spring 6, a spring guide 5 is installed, and a plurality of balls 4 are inserted in the circumference in the forward direction, and are installed in a state of being fixed to the groove 8.

A threaded portion 5 'is formed at the rear of the spring guide 5, and a threaded portion 7' is installed at the separated load adjusting portion 7 at the rear of the spring 6, and the threaded portion 5 'and 7'. By the combination of the spring 6 to control the separation load.

The present invention is the spring 6 and the separate load adjustment unit 7, the spring guide 5 is configured to facilitate the separation, the mounting of the valve as shown in Figure 1 the separate load adjustment unit of the valve when mounting the valve (7) ) By turning counterclockwise to reduce the elasticity of the spring 6 so that the ball 4 can be inserted into the groove 8 of the ground body 2 as shown in FIG. 2.

Push the ball (4) into the groove (8) with a suitable force through the spring guide (5) and insert the body (1) for the projectile, the valve is connected as shown in Figure 3, when the spring guide (5) is released, the valve is self-sealing Becomes

The separate load adjustment of the valve is to increase the elasticity of the spring (6) by turning the separation load adjustment portion (7) clockwise as shown in Figure 4 so that the spring (6) pulls the ball (4) further to the desired separation load It can be applied, and the separation load can be adjusted.

The separation of the valve is performed in the reverse order with respect to the assembling process of FIGS. 1, 2, and 3. When the upper and lower predetermined force acts on the launcher body 1 and the ground body 2, the spring 6 is compressed and the spring guide. By the ball (5) falls into the groove, the valve loses the fastening force and is smoothly separated.

That is, the separation of the valve is the projectile body (1) pulls the ball 4 and the spring guide (5) and the ball (4) is the ground body (2) when a certain force acts up and down while the separation force is adjusted ) Into the groove (8) of the projectile body (1) is separated from the valve.

At this time, after separation, the ball 4 is lost to the outside and the spring guide 5 is brought back into place by elasticity.

The present invention is constructed in such a way that after the ball 4 is remounted in the valve, it can be continuously reused.

The present invention is to maintain the airtight and the flow path of the valve to be used for the injection, discharge of the rocket propellant and to ensure 100% separation in the mechanical manner of the valve.

The present invention is to facilitate the valve installation, separation by installing the spring and the separation load control unit and to be able to use by properly adjusting according to the change of the separation load.

The present invention is to be reusable without changing the internal parts of the valve even after mounting and removal of the valve.

The present invention is designed for injection / discharge and separation of the propellant of the rocket, but may be used for the safety of the pipe in an industrial situation where the internal decompression is desired by the appropriate separation load and the internal pressure.

Claims (2)

In the valve for separating and assembling the projectile body (1) and the ground body (2), A ground body (2) in which a groove (8) is formed in front, A spring (6) capable of adjusting a separate load to the rear of the ground body (2), A spring guide 5 installed at an outer side of the spring 6 and having a threaded portion 5 'formed therein and having a ball 4 at the front thereof; Separating load adjustable, characterized in that the screw portion (7 ') is coupled to the threaded portion (5') of the spring guide (5) is formed by a separate load adjustment unit (7) for adjusting the separation load of the spring (6) Regenerative mechanical release valve. 2. The regenerative mechanical release valve of claim 1, wherein the ball is inserted and reused even after the valve is separated by adjusting the separation load of the separation load adjusting unit.