RU2677118C1 - Node for coupling and uncoupling spaceship structural moving elements - Google Patents

Abstract

FIELD: space engineering.SUBSTANCE: unit for fastening and uncoupling the moving elements of the spacecraft construction relates to optical instrument making, space technology and astronomy and can be used in the development of attachment points, in particular, the covers of telescopes, intended for observing astronomical objects in the X-ray range of the electromagnetic spectrum. Node includes two explosive pins, placed on a common base, which is a structural element of the spacecraft, movable rods of peaks interact with the locking element pivotally connected with the suspension rigidly fixed on the unlocked movable element, explosive pins are attached to a common base with a single bracket, in which the explosive pins are installed towards each other with the arrangement of movable rods on the same axis, and the locking element is made in the form of two links, pivotally fastened together.EFFECT: technical result is to increase the manufacturability by simplifying the assembly and adjustment of the structure, as well as to reduce the size and weight.1 cl, 4 dwg

Description

The invention relates to optical instrumentation, space technology and astronomy and can be used in the development of attachment points for moving structural elements of spacecraft (SC), in particular, the covers of telescopes designed to observe astronomical objects in the x-ray range of the spectrum of electromagnetic radiation, for example, the ART x-ray telescope -XC project "Spectrum-RG", developed for the study of galactic and extragalactic radiation sources. According to scientists, this should allow a deeper understanding of the processes of evolution of the universe and the universe as a whole.

One of the tasks to which the efforts of the developers were directed when designing this telescope is to ensure that it remains operational in the event of a possible failure in the system. One of the most important elements of the ART-XC telescope is the X-ray optical system (POC), designed to focus the x-ray radiation. At the stage of launching the ART-XC telescope into a given orbit, the incident flow exerts a force on the structural elements of the POC. The POC protection unit is designed to protect the POC mirrors from free flow. After the telescope is put into a given orbit, the cover of the protection unit is opened and locked in the open position for the regular operation of the telescope. The opening of the lid is carried out using a unit for fastening and unlocking, which is a critical structural element of the ART-XC telescope and on which its functioning depends.

From the prior art, the known design of the nodes for mounting and fixing the movable structural elements of the spacecraft. So, for example, there is a knot for mounting radar antennas, flaps of solar batteries, blends, covers of light-protective devices, etc., at the stages of transportation of the spacecraft and putting it into orbit and their release at the stage of regular operation of the device (patent RU 2461497, the public. 09/20/2012). The known site is a thermal check, including drive power elements (primary and backup), electrically connected to the spacecraft control system, the working rod. Power elements are made of an alloy with a shape memory effect in the form of conductors with closed loops covering insulator rollers, one of which is mounted on an axis belonging to the working rod, and the other on an axis belonging to the support bracket rigidly fixed in the housing. The sleeve interacts with the axis belonging to the working rod, and the plug interacts with the axis belonging to the support bracket, and the sleeve and fork are spring-loaded with each other. The thermocouple is equipped with a power module that provides the necessary parameters of the electric current supplied to the power elements through electrical contacts fixed in the middle of the conductors, and contact sensors mounted on brackets rigidly fixed on both sides in the housing. Lamellar springs are also attached to the brackets, which interact when a thermal check is triggered with a conical protrusion made on the sleeve and contact sensors.

The disadvantage of the analogue is associated with the use in the design of a power element made of a material with a shape memory that works by heating with direct electric current passing through it, which narrows the working temperature range and requires additional measures to ensure thermal conditions.

The closest analogue in terms of the problem to be solved and the number of similar features to the claimed invention is a unit for fastening and fixing the moving structural elements of the spacecraft, in particular, the shutters of a solar battery (patent RU 2221731, public. 01.20.2004). The assembly includes two pyrochecks, each mounted on its supporting bracket, which, in turn, are fixed on a common base, in particular, the frame, which is an element of the spacecraft construction. The movable stick rods interact with the locking element, with the possibility of its movement and release, allowing you to fold one of the wings. As a locking element, a rocker arm is pivotally connected to a suspension rigidly fixed to a movable element to be fixed, in particular, a sash. The rods of tricks are parallel to each other.

 The disadvantage of the closest analogue is associated with the applied layout scheme, leading to the complexity of autonomous assembly and testing of the node, which significantly reduces the manufacturability of its manufacture. It should also be noted that the applied layout scheme leads to increased dimensions and weight, in addition to the design of the node stringent requirements are imposed on the relative position of its elements, in particular, the suspension relative to pyrochecks.

The technical result of the claimed invention is to increase the manufacturability of manufacturing by simplifying the assembly and configuration. An additional technical result is the reduction in size and weight.

The specified technical result is achieved due to the fact that in the node for mounting and fixing the movable structural elements of the spacecraft, including two pyrochecks placed on a common base, which is a structural element of the spacecraft, while the movable rod rods interact with the locking element pivotally connected to the suspension rigidly fixed on the movable element to be unlocked, new is that pyrochecks are attached to a common base with the help of a single bracket, in which the grooves are installed towards each other with the location of the movable rods on the same axis, and the locking element is made in the form of two links pivotally fastened together

The fastening of the pyrocheal to the common base with the help of a single bracket, in which the pyrochee is mounted towards each other with the location of the movable rods on the same axis, made it possible to optimize the layout of the unit, which significantly reduced its dimensions and weight, and also make it in the form of a single finished design, which allowed the assembly and configuration of the unit without installation on the base, which is an element of the design of the spacecraft.

The implementation of the locking element in the form of two links pivotally fastened to each other, reduced the requirement for accuracy of the relative position of the suspension relative to pies.

Figure 1 presents a diagram of the inventive device, where: 1 - a fixed element (cover of the protection unit); 2 - hinges of the locking element; 3 - locking element; 4 - relocatable stocks of tricks.

In FIG. 2 - bracket for placing pies.

Figure 3 - locking element.

In FIG. 4 - assembly complete with pyrochecks.

An example of a specific implementation of the claimed invention can serve as a unit for fastening and unlocking the cover of the POC protection unit designed for the ART-XC telescope (shown schematically in FIG. 1). To ensure the preservation of operability in the event of a possible failure in the operation of the unit, it was decided to introduce duplication of the pyrochelic in the structure, while the duplicate pyrocheal was placed in the original dimensions of the ART-XC telescope. The assembly for fixing and unlocking the lid is made in the form of a single finished structure and includes two pyrochecks placed on a common base, which is a structural element of the spacecraft, in particular, a hood. Pyrochecks include powder charges and rods moved under pressure

combustion products of powder charges. The movable stick rods interact with a locking element pivotally connected to a suspension rigidly fixed to a unlockable lid. Pyrochets are attached to the lens hood using a single bracket, in which pyrochets are mounted towards each other with the arrangement of rods on the same axis. The bracket (figure 2) for fixing the pies is structurally combined with a heat shield and is made of aluminum alloy brand AMts. The heat shield is equipped with heaters, the main and backup, closed screen-vacuum thermal insulation (EVTI). This design option allows you to save the dimensions of the telescope module, and combining the bracket with a heat shield, coupled with the choice of material, allows for uniform heating of pies with heaters on the screen without changing the thermal model of the telescope. In FIG. 2 it can be seen that the coaxial arrangement of the movable rods of tricks is provided by a central hole in the bracket and a cylindrical protrusion on the body of the trolley. Pyrochets are fixed with common fasteners, which simplifies assembly and configuration of the unit. To ensure thermal isolation of the bracket from the POC protection unit, fastenings were made under the fluoroplastic washers at the attachment points. The locking element is made in the form of two links pivotally fastened together (Fig.3, 4). The suspension is fastened with four screws to the cover of the POC protection unit. One of the links of the locking element is pivotally hinged with a suspension, and the other has two conical recesses for the movable rods of pies (figure 3). Since the cover of the POC protection unit is a moving part, in order to reduce the mass and moment of inertia of the cover, the suspension and the link attached to it are made of aluminum alloy AMg6. To ensure the necessary hardness, the link with conical recesses is made of steel 14X17H2 with subsequent heat treatment. To prevent mutual welding of parts from a homogeneous material under conditions of cosmic vacuum, the links and suspension are connected by axes made of VT14 titanium alloy with spacers from a fluoroplastic film.

The operation of the claimed device is as follows.

 After the telescope is put into a given orbit, it is necessary to smoothly open the cover of the protection unit and fix it in the open position for the regular functioning of the telescope. Opening the cover of the protection node is carried out using the node for mounting and unlocking as follows. When an electrical impulse is applied to one (main) of the fires, the powder charge is undermined, leading to the rod 4 being pulled into the pyrocheck body, the conical part 3 of the link 2 of the articulated locking element slides along the rod 4 of the backup pyrochee, and under the action of the spring, the cover 1 of the protection unit DEW is opened and fixed in the open position. In the event of a failure of the standard pyrocheck, the second pyrocheck is triggered, which leads to the opening of the lid 1 of the POC, after which the regular functioning of the telescope in a given space orbit begins.

According to the claimed device, a set of design documentation was developed and released, tested, which showed the feasibility of reliable smooth opening of the cover and fixing it in the open position.

Claims (1)

A node for mounting and fixing the movable structural elements of the spacecraft, including two pyrochecks placed on a common base, which is a structural element of the spacecraft, while the movable rod rods interact with a locking element pivotally connected to the suspension, rigidly mounted on a fixed movable element, characterized the fact that pyrochecks are attached to a common base with a single bracket, in which pyrochets are mounted towards each other with a displacement arrangement rods on the same axis, and the locking element is made in the form of two links articulated together.

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