RU203145U1 - CELLULAR PANEL SUPPORT UNIT - Google Patents

Abstract

The utility model relates to the field of mechanical engineering and can be used in the space industry, in particular, in the manufacture of honeycomb panels for spacecraft, on which embedded elements are installed - support nodes intended for fastening onboard equipment and structural elements of spacecraft. The support unit of the honeycomb panel consists of two bushings located coaxially in the through hole of the honeycomb panel and mated with each other by a threaded connection, while the bushings are made with flanges and are fixed to each other and the honeycomb panel with glue. The flanges have polygonal protrusions in which interface holes are made located at different angles and at different distances from the honeycomb panel, while the polygonal protrusions on the flanges can be symmetrical, and the interface holes can be threaded and can be through or blind. The utility model provides the ability to mount equipment located on opposite sides of the honeycomb panel at different distances from the mounting surfaces and at different angles. 3 C.p. f-ly, 3 dwg

Description

The utility model relates to the field of mechanical engineering and can be used in the space industry, in particular, in the manufacture of honeycomb panels for spacecraft (SC), on which embedded elements are installed - support nodes intended for fastening onboard equipment and spacecraft structural elements.

Known is a support assembly for a honeycomb panel, presented in US2004194409 (A1), comprising an upper and a lower base, between which a honeycomb core is installed. The embedded element, built into the honeycomb panel from the front side into a blind hole passing through one of the bases and the honeycomb filler, is a spatial structure consisting of several supports located radially together at different angles extending from one point, which is the point of intersection their center lines. One support is built into the blind hole of the honeycomb panel for the adhesive composition. The protruding supports parallel to the base are glued to the face of the interface base. The rest of the supports are interface for equipment installed at a certain distance from the base of the honeycomb panel.

The disadvantages of this device include:

- this support node does not solve the problem of providing a two-way interface, if the equipment is located on different sides of the honeycomb panel;

- this support unit has a lower bearing capacity, since it is installed in a blind, and not a through hole.

As a prototype, the support unit of the honeycomb panel, disclosed in the description of the utility model to the patent RU 193643, is chosen, made in the form of bushings located coaxially in the through hole of the honeycomb panel and mated with each other by a threaded connection, while the bushings are made with flanges and are fixed to each other and the honeycomb panel with glue.

The design of this support unit does not allow fixing the equipment at different angles to the interface surface of the honeycomb panel, which is an actual technical problem.

The problem to be solved by the claimed utility model is to improve the design of the support unit of the honeycomb panel, as well as to expand the functionality in order to install equipment located on two opposite sides of the honeycomb panel, at different distances from the surfaces of the honeycomb panel and at different angles to the honeycomb panel.

This problem is solved due to the fact that the support unit of the honeycomb panel consists of two bushings located coaxially in the through hole of the honeycomb panel and mated with each other by a threaded connection, while the bushings are made with flanges and are fixed to each other and the honeycomb panel with glue. The flanges have polygonal protrusions in which interface holes are made located at different angles and at different distances from the honeycomb panel, while the polygonal protrusions on the flanges can be symmetrical, and the interface holes can be threaded and can be through or blind.

The technical result of the utility model is the ability to mount equipment located on opposite sides of the honeycomb panel at different distances from the mounting surfaces and at different angles.

The technical essence and principle of operation of the proposed device are illustrated by three drawings, which show:

fig. 1 is a general view of the support unit installed in the opening of the honeycomb panel;

fig. 2 is a general view of a support unit with symmetrically spaced polygonal protrusions installed in an opening of a honeycomb panel;

Fig. 3 is a top view of the support assembly.

FIG. 1 shows a general view of the support unit installed in the hole of the honeycomb panel, which consists of two bushings 1, 2 located coaxially in the through hole of the honeycomb panel 3 and mated with each other by a threaded connection, while the bushings 1, 2 are made with flanges and are fixed to each other and honeycomb panel 3 with glue. The flanges have polygonal protrusions in which interface holes 4 are made, located at different angles and at different distances from the honeycomb panel 3, while the polygonal protrusions on the flanges can be symmetrical (see Fig. 2), and the interface holes 4 can be made threaded and can be through or blind.

FIG. 3 is a top view of a support assembly that is installed in a honeycomb panel.

The described support unit is installed as follows: two bushings 1, 2 are installed coaxially into the through hole of the honeycomb panel 3, tightening them along the thread until it stops with the honeycomb panel, while the bushes 1, 2 are fixed to each other and to the honeycomb panel 3 using glue.

Thus, the claimed support unit of the honeycomb panel allows to solve the problem.

Claims (5)

1. Support unit of the honeycomb panel, consisting of two bushings located coaxially in the through hole of the honeycomb panel and interfacing with each other by a threaded connection, while the bushings are made with flanges and fixed to each other and the honeycomb panel using glue, characterized in that the flanges are made with polygonal protrusions, in which there are interface holes located at different angles and at different distances from the honeycomb panel. 2. The support assembly of the honeycomb panel according to claim 1, characterized in that the polygonal protrusions on the flanges can be symmetrical. 3. The support assembly of the honeycomb panel according to claim 1 or 2, characterized in that the interface holes can be threaded. 4. The support unit of the honeycomb panel according to claim 1 or 2, or 3, characterized in that the interface holes in the polygonal protrusions can be through or blind.

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