RU2085671C1 - Multiple-layer panel - Google Patents

Abstract

FIELD: construction engineering. SUBSTANCE: this can be used in manufacture of cowls, radioparent shelters of antenna arrangements, in aircraft industry, ship-building industry, and in ground surface construction. Multiple-layer panel is of high quality and easy to manufacture and this is achieved due to high strength of joining cellular filler of hexagonal structure and additional filler layers located symmetrically relative to middle surface of panel and serving for draining of moisture. Additional filler layers are made in the form of zigzag trapezoidal corrugation with flat sheet spread and this adds to technological easiness of production,. EFFECT: high efficiency. 1 cl, 4 dwg

Description

 The invention relates to the field of building structures and can be used in the manufacture of fairings, radiotransparent shelters of antenna devices, in aircraft construction, shipbuilding and ground construction.

 Known multilayer panels, consisting of skins and filler, in the form of cells of a hexagonal, rhombic, sinusoidal and other shapes (Bersudsky V.E. et al. Production of honeycomb structures. M. Engineering, 1966. P. 11 27). The disadvantages of these designs are that it is impossible to remove moisture that penetrates through the casing and condenses in the closed cells of the filler, which leads to corrosion, increases weight and reduces the radio transparency of the panel.

 The purpose of the invention is improving the quality of the multilayer panel and the manufacturability of its manufacture.

 The goal is achieved in that the additional filler layers are located symmetrically with respect to the median surface of the panel and are made of flat sheet sweep with trapezoidal zigzag lines of protrusions and troughs, and the honeycomb filler has a hexagonal structure matching in relief with zigzag lines of protrusions and troughs of the additional filler layers. In this case, the honeycomb core is made of alternating corrugated strips of different heights. High strips are connected to the upper additional layer of filler along the lines of the protrusions and the lower additional layer of filler along the lines of the depressions. Low bands are installed on the upper additional layer of filler along the lines of the depressions and the lower additional layer of filler on the lines of the protrusions. In order to increase the strength, the corrugated strips of the honeycomb core are connected to the faces of the additional layers of aggregate by means of flanges.

 An information and patent search to determine whether the claimed invention meets the criterion of "significant differences" showed that there is no information in the literature on multilayer panels with honeycomb core and additional layers of filler in the form of a zigzag corrugation, forming drainage channels for removing moisture in which the honeycomb has hexagonal structure coinciding in relief with zigzag lines of protrusions and troughs of additional filler layers and connected to them by decree busy lines. Which increases the strength of the structure. In addition, additional layers of filler made in the form of a zigzag trapezoidal corrugation, unfolding on a plane. This allows you to produce additional layers of aggregate from a flat sheet scan by only bending operations, excluding drawing.

 In FIG. 1 shows a general view of a multilayer panel; in FIG. 2 fragment of honeycomb core; in FIG. 3 scan of an additional layer of aggregate; in FIG. 4 fragment connection honeycomb placeholder with additional layers of aggregate through flanging.

 In FIG. 1 4 shown: position 1 outer skin; 2 honeycomb core; 3 upper additional layer of aggregate; 4 lower additional layer of aggregate; 5 corrugated strips of high height; 6 - corrugated stripes of lower height; 7 zigzag lines of protrusions of additional filler layers; 8 zigzag lines of troughs of additional filler layers; 9 flanging of the honeycomb core.

 The multilayer panel (Fig. 1) consists of the outer skin 1, honeycomb core 2, upper 3 and lower 4 additional layers of aggregate, forming drainage channels for removing moisture and located symmetrically relative to the middle surface of the panel.

 Cellular aggregate (Fig. 2) consists of interconnected corrugated strips of greater than 5 and less than 6 height. The placeholder has a hexagonal structure shown in a plan view.

 When bending along solid lines (Fig. 3), zigzag lines of protrusions 7 are formed, and along dashed lines zigzag lines of depressions 8 (Fig. 1).

 In FIG. 4 shows a fragment of the connection of the larger corrugated strip 5 of the honeycomb core with the lower additional layer of aggregate 4 along the zigzag lines of the depressions 8 by means of flanges 9.

 In the multilayer panel, additional layers of aggregate 3, 4, forming the outlet channel are made in the form of a zigzag trapezoidal corrugation, which has a flat sheet scan (Fig. 3), i.e. can be obtained by bending along the lines outlined in the scan without drawing operations. This eliminates the expensive equipment associated with the operation of the hood, reduces the complexity, which determines the higher adaptability of the proposed design.

 Cellular aggregate 2 is made of hexagonal structure, matching in relief with zigzag lines of protrusions 7 and depressions 8 of additional layers of aggregate 3, 4 (Fig. 1). In this case, the honeycomb core 2 is formed by interconnected corrugated strips 5, 6 having different heights (Fig. 2). As a result, the connection of the honeycomb core 2 with additional layers of aggregate 3, 4 is carried out along the lines of the protrusions 7 (Fig. 1) with the upper additional layer of aggregate 3 and along the lines of the depressions 8 with the lower additional layer of aggregate 4. Such a linear contact when connecting the honeycomb 2 and additional layers of aggregate 3, 4 provides a significantly higher strength than in the prototype. The connection strength of the honeycomb core 2 with additional layers of aggregate 3, 4 increases when using flanges 9 (Fig. 4).

 The use of the invention in the national economy of the country will improve the quality of the multilayer panel by increasing the strength of the joint of the honeycomb core with additional layers of aggregate, as well as improve the manufacturability of its manufacture by using a zigzag corrugation that unfolds on a plane as additional filler layers.

Claims (2)

 1. A multilayer panel, including sheathing, a honeycomb core formed by corrugated strips connected to each other, and additional filler layers in the form of a zigzag corrugation, located between the skin and the honeycomb core, forming outlet channels, characterized in that the additional layers of filler are located symmetrically relative to the median the surface of the panel is made of flat sheet sweep with trapezoid-broken lines of protrusions and depressions, and the honeycomb core has a hexagonal st the structure coinciding in relief with the lines of the protrusions and troughs of the additional layers, while the honeycomb core is made of alternating corrugated strips of different heights, some of which are connected to the upper additional layer of filler along the lines of the protrusions and the lower additional layer of filler along the lines of the troughs, and others to the upper an additional layer of aggregate along the lines of the depressions and a lower additional layer of aggregate along the lines of the protrusions.  2. The multilayer panel according to claim 1, characterized in that the corrugated strip of honeycomb core is connected to the faces of the additional layers of aggregate by means of flanges.

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