JPH08295299A - Automatic development contamination preventing cover - Google Patents

Abstract

PURPOSE: To unfold a cover light in weight and few component structure. CONSTITUTION: A lens cylinder 3 is airtightly covered with a filmy sheet 1, and an airtight space 5 is formed in an interval between this filmy sheet 1 and the lens cylinder 3. When a space flight body is launched, pressure in this airtight space 5 is changed, and thereby a pressure differential acts on both sides of the filmy sheet 1, therefore this sheet 1 is ruptured and thus unfolded.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an automatic deployment contamination prevention cover for protecting a device mounted on a spacecraft such as an artificial satellite.

[0002]

2. Description of the Related Art In a device mounted on a spacecraft such as an artificial satellite, for example, an optical device, it is an important issue to prevent performance deterioration due to contamination. As contamination, dust from the rocket fairing being launched,
There is a wraparound of the initial outgas generated from the spacecraft as it is introduced into the space environment. As a countermeasure against these, there is a method of covering the device with a sheet and deploying the sheet on the orbit of the spacecraft.

As a method of not installing a cover on the device, a device for installing a preventive plate on the engine part for orbit / attitude control of an artificial satellite, which is one of the sources of contamination (Japanese Patent Application No. 62-48088). , A device that covers the entire satellite with a contamination prevention thin film (Japanese Patent Application No. 6-6355).
No.) is proposed.

[0004]

As described above, when the cover is installed on the optical device and the dedicated actuator is attached and the drive is controlled and deployed on the orbit, many parts are required for the actuator mechanism. In addition, a power source and a control circuit for driving the actuator are required, and there are drawbacks such as an increase in weight, power consumption, and an increase in manufacturing cost. Further, the reliability is lowered as the number of parts increases.

Further, in the method of providing a preventive measure to the contamination generation source of the artificial satellite without providing a cover on the optical device, the preventive measure is not applied to all the generation sources, and the preventive effect is unclear. In addition, the method of applying a preventive measure to the entire artificial satellite has a problem in that the size of the device becomes large and the feasibility is poor. Further, the preventive measure by the artificial satellite has a problem that if the preventive measure is not taken by the artificial satellite, there is no preventive measure for contamination of the optical device.

It is an object of the present invention to provide an automatic deployment contamination prevention cover which is lightweight and can be realized with a small number of parts. Is to provide.

[0007]

In order to achieve the above object, an automatic deployment contamination prevention cover according to the present invention has a film-like sheet and protects a device mounted on a spacecraft such as an artificial satellite. An automatic expansion contamination prevention cover, wherein the film-like sheet covers the device in an airtight manner and forms an airtight space between the device and the device, and the airtight space is a space whose pressure is cut off from the outside. That is, a pressure difference is generated between both surfaces of the film-like sheet to break and develop the film-like sheet.

Further, the film-like sheet has a rupture portion, and the rupture portion is set to have a strength at which the film-like sheet is ruptured by a pressure difference generated on both sides of the film-like sheet.

The breaks are provided radially from the center of the film-like sheet to the outside.

Further, the film-like sheet has a resilient part, and the resilient part is for forcibly expanding the broken film-like sheet by a self-restoring force.

The airtight space is a space in which a spacecraft is launched and a change in atmospheric pressure causes a pressure difference with the outside.

[0013]

The device is airtightly covered with the film-like sheet to form an airtight space between the film-like sheet and the device.

When the spacecraft is launched, the airtight space changes in atmospheric pressure, and a pressure difference acts on both sides of the film-like sheet, and the film-like sheet is broken and expanded.

[0015]

DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described below with reference to the drawings.

In the figure, an automatic expansion contamination prevention cover according to an embodiment of the present invention has a basic structure in which a device 3 to be protected is covered with a film sheet 1.
An airtight space 5 is formed between the sheet 1 and the device 3, and a pressure difference due to a change in atmospheric pressure in the airtight space 5 is applied between both surfaces of the film-like sheet 1 so that the film-like sheet 1 is broken and expanded. It is a thing.

Next, the present invention will be described with reference to specific examples. An optical device is used as a device mounted on a spacecraft, and this optical device protects the optical parts of the lens barrel from contamination.

In FIGS. 1, 2 and 4, the lens barrel 3 of the optical device has an optical component 6, and the tip end opening portion 3 thereof is provided.
When a is closed, it becomes an airtight space, and the present invention effectively utilizes the space of the lens barrel 3. That is, the front end opening 3a of the lens barrel 3 of the optical device is sealed with the film-like sheet 1 to form the airtight space 5 in the lens barrel 3 (see FIG. 4). Further, the peripheral portion 1a of the film-like sheet 1
Is closely attached to the lens barrel 3 and the film-like sheet 1 protects the optical component 6 from contamination.

The film-like sheet 1 is provided with a breaking portion 4 in order to make it easy to break due to a pressure difference caused by a change in atmospheric pressure in the airtight space 5. The breaking portion 4 is
The strength is weakened so that the sheet 1 is broken within a certain range. The breakage portion 4 is formed by forming perforation-like breakage holes in the sheet 1, for example, so that the breakage portion 4 breaks in a linear shape connecting the breakage holes. Further, the breaking portions 4 are provided radially from the center of the sheet 1 toward the outside, so that the breaking portions 4 can be efficiently developed.

Further, in order to forcibly develop the broken film-like sheet 1 from the opening 3a of the lens barrel 3 to a position where the visual field of the optical system is not obstructed, the resilient part 2 is used. The elastic unit 2 uses a cable that expands and contracts due to self-restoring force,
A part of the elastic cable 2 is fixed to the lens tube 3, and the other end is tied to a position close to the breaking portion 4 of the sheet 1, and when the sheet 1 is broken, the elastic cable 2 forces the sheet type of the lens tube 3. It is designed to expand from the inside of the opening 3a to the outside.

In the embodiment, as shown in FIGS. 1 and 2, the opening 3a of the lens barrel 3 is sealed by the sheet 1, and the airtight space 5 formed in the lens barrel 3 is pressure-blocked from the outside.

Next, the operation from the launch of the spacecraft to the fracture and deployment of the seat will be described with reference to the flowchart of FIG.

When the spacecraft is launched (step S
_1), altitude outer pressure is reduced with respect to the airtight space 5 with to increase (step S _2).

Along with this, a pressure difference acting between both surfaces of the sheet 1 is applied to the sheet 1 by the airtight space 5 (step S ₃ ). When the pressure difference becomes larger than the strength of the breaking portion 4 of the sheet 1, the sheet 1 breaks along the breaking portion 4 as shown in FIG. 4 (step S ₄ ).

[0025] Sheet 1 is broken, the elastic cable 2 and self-restoring, pulling out on the sheet piece from the opening 3a of the lens 3, the sheet 1 is expanded (step S _5). Thus not intended to block the opening portion 3a of the lens barrel 3, the optical device is operable state (step S _6).

In the embodiment, the object to be protected from contamination is the optical component provided in the lens barrel of the optical device, but the invention is not limited to this.

[0027]

As described above, according to the present invention, since the spacecraft is covered with the film sheet until it reaches the orbit, dust from the launch robot fairing of the spacecraft, It is possible to prevent the initial outgas from flowing around.

Further, since the film-like sheet breaks by utilizing the atmospheric pressure change associated with the launch of a spacecraft, the number of parts can be reduced, the weight can be reduced, and the expanding operation can be driven. It can be done automatically without the need for commands such as signals.

[Brief description of drawings]

FIG. 1 is a perspective sectional view showing an embodiment of the present invention.

FIG. 2 is an exploded perspective view showing an embodiment of the present invention.

FIG. 3 is a perspective view showing a developed state of a film-like sheet.

FIG. 4 is a cross-sectional view showing a developed state of the film-like sheet.

FIG. 5 is a flowchart showing the operation of the present invention.

[Explanation of symbols]

 1 film-like sheet 2 elastic part 3 lens barrel 4 fractured part 5 airtight space 6 optical parts

Claims (5)

[Claims] 1. An automatic deployment contamination prevention cover having a film-like sheet for protecting a device mounted on a spacecraft such as an artificial satellite, wherein the film-like sheet hermetically covers the device, An airtight space is formed between the device and the airtight space, which is a space whose pressure is cut off from the outside, and which causes a pressure difference between both surfaces of the film sheet to form the film sheet. An automatic deployment contamination prevention cover characterized by breaking and deploying. 2. The film-shaped sheet has a fractured part, and the fractured part is set to have a strength at which the film-shaped sheet breaks due to a pressure difference generated on both sides of the film-shaped sheet. The automatic expansion contamination prevention cover described. 3. The automatic expansion contamination prevention cover according to claim 1, wherein the breaking portion is provided radially from the center of the film-like sheet to the outside. 4. The film-like sheet has a resilient portion, and the resilient portion is for forcibly developing the broken film-like sheet by a self-restoring force. The automatic development contamination prevention cover described in 2 or 3. 5. The automatic expansion contamination prevention cover according to claim 1, wherein the airtight space is one in which a spacecraft is launched and a pressure difference is generated between the spacecraft and the outside due to a change in atmospheric pressure.