RU2661672C2 - Device for separation of structural components - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: invention relates to machine building. Proposed is a device for separating structural elements that contains an elastic ring with pairwise and diametrically arranged projections. Such projections are offset in the corners. Holes are provided in the projections and allow the device to be attached to along its outer diameter in the radial direction to the structure after it has been deployed to the free state.

EFFECT: fixation is achieved radially along the outer diameter.

1 cl, 4 dwg

Description

The present invention relates to mechanical engineering, namely, to the design of springs intended for use as elastic links for the separation of structural elements of transformable mechanical systems in locks locks and inserts wings of the batteries of solar spacecraft.

A wavy ring spring is known from the prior art, consisting of spring elements comprising an elastic ring. According to a utility model, the elastic ring is made in the form of two identical waves conjugated between each other, the height of each of which “h” corresponds to the full stroke of the spring, the thickness of the elastic ring is “Δ”, the width is “b”, and the axial dimension of the elastic ring is “h + Δ ", in addition, the elastic ring is equipped with fastening elements necessary for fixing the spring located in the places of bending of the elastic ring (utility model patent No. 35397, publication date 01/10/2004).

Closest to the claimed invention is an annular spring containing an elastic ring with protrusions pairwise and diametrically located on opposing surfaces with a displacement of them at an angle, the width of the ring being equal to 1/8 of its diameter, the spring is equipped with an annular element rigidly connected to the protrusions of one of the sides elastic ring, also the spring may have an additional elastic ring similar to the main one, with the protrusions of the rings facing each other and rigidly interconnected, the width of the additional elastic ring tsa is the primary width (Inventor's Certificate USSR №1208368, IPC F16F 1/34, publ. 01.30.86).

This device is taken as a prototype of the invention.

The main disadvantages of these technical solutions are their high rigidity and small working stroke, as well as the lack of the ability to radially fix the device along the outer diameter in the structure of the structure to hold it after moving from the pressed state to the free one.

The technical problem to which the claimed invention is directed is to increase the stroke and reduce the stiffness of the device for separating structural elements, as well as equip it with fastening elements, in particular holes, which fix the device after it is put into a free state.

The problem is solved due to the fact that in the device for separating structural elements containing an elastic ring with pairwise and diametrically spaced protrusions with an offset along the corner, holes are provided in the protrusions for securing the device along the outer diameter in the radial direction as part of the structure after it moving to a free state.

The stiffness and elasticity of the annular spring spring can be obtained of any size due to, for example, changes in the thickness and / or width of the ring, in addition, the stiffness can be increased / decreased also by changing the distance between the support protrusions along the diameter of the ring.

The technical result provided by the above set of features is to reduce the rigidity of the device by reducing the width of the ring, as well as equipping the separation device with fastening elements, in particular the holes necessary for its fixation, located in the protrusions.

The invention is illustrated by drawings, which depict:

- in FIG. 1 - a device for separating structural elements in a free state, the main view;

- in FIG. 2 - a device for separating structural elements in a free state, view A (bottom view);

- in FIG. 3 - a device for the separation of structural elements in a loaded state;

- in FIG. 4 - a device for separating structural elements assembly with a package of solar panels of transformed mechanical systems of spacecraft batteries.

The device is made in the form of an annular spring spring containing an elastic ring 1 with protrusions 2, 3, 4, 5, pairwise and diametrically positioned with their offset along the corner, has a ring width equal to 1/35 of its diameter, in addition, in the protrusions holes 6 are provided for securing the device along the outer diameter in the radial direction as part of the structure after moving it from the preloaded state to the free one.

A device for separating structural elements works as follows. The initial axial dimension of the elastic ring 1 of the device for the separation of structural elements is equal to "h + Δ" (Fig. 1). A working force P is applied along the axis 7 of the annular spring spring to the vertices of the four protrusions 2, 3, 4, 5 of the elastic ring 1 (Fig. 2). As the specified working force increases, the stroke of the free end of the annular spring spring changes from Δ to 0, while the separation device acquires a geometric waveform, i.e. its axial dimension is equal to the thickness of the protrusion of the ring "h" (Fig. 3). In FIG. 4 shows a device for the separation of structural elements installed between the fittings 8 and 9 of the disclosed panels of the solar battery, tightened between themselves locks locks. The device is located on the sleeve 10 between the panels 11 and 12 of the solar battery, fixed by screws 13 through the holes in the protrusions 14. Thus, when opening the package of panels 11 and 12 of the solar battery of transformed mechanical systems, the separation device due to the forces of elastic deformations arising in the material, acquires its original shape, thereby pushing adjacent panels together and preventing them from jamming from each other.

Claims (1)

A device for separating structural elements, comprising an elastic ring with pairwise and diametrically spaced protrusions with an angle offset thereof, characterized in that openings are provided in the protrusions for securing the device with an outer diameter in the radial direction as part of the structure after it is moved to the free state.

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