SU1317075A1 - Laminated panel - Google Patents

Abstract

The invention relates to multi-layer supporting panels and can be used in construction, as well as in the creation of elements of power structures of aircraft and high-carrier vessels. damping ability to the impact of intense multiple loads. The purpose of the invention is to improve the damping characteristics and increase the carrying capacity of the panel. The multilayered panel consists of supporting ribbed plates 1, 2, the edges of one of which are located in the intercostal spaces of the other and are connected by elastically flexible links in the form of pipes 7, 8 and 9. On the plates opposite the edges, there are guide lugs 5 and 6 forming response hollows under wedge-shaped vertex edges. The pipes have reduced diameters, normal to the supporting layers, and are connected in lines parallel to the ribs 3, 4, with each other and the ribs. To facilitate the panel, the ribs are hollow. The inner surface of the pipe is outlined in arcs with increasing pipe thickness from one arc to another. I zp f-ly, 3 ill. 4 (L oo o JV

Description

The invention relates to load carrying depreciation. After touching the panels and can find the use of pipes 8 with supporting layer 2, their movement is certain in construction, as well as when the movement of pipes 9 is created and begins to move the elements of the load-bearing structures. due to the fact that the thickness of the pipes 9 is greater than the high carrying and damping thickness of the pipes 8, alternate

stepwise increase in depreciation resistance. This provides

progressive increase in effort with the question of the impact of intense multiple loads.

The aim of the invention is to improve

depreciation characteristics and increased depreciation. At the same time, the knowledge of the carrying capacity of the panel. The course of depreciation of the panel increases significantly. 1 shows the panel, general view, initial state; in fig. 2 - the same, after the depreciation process; in fig. 3 -

Does that improve the depreciation characteristics of structures. At the final stage of the movement, the wedge-shaped edges of the ribs are centered by the depressions of the protrusions tS 5, whereby the fins of one carrier layer are established symmetrically with respect to the ribs of the other carrier layer and it is possible to restore the exact original shape of the panel after exposure. On the other hand, the load-bearing capacity of the panel increases in a state of damping due to the engagement of (rigid) one layer relative to another. After exhausting its cushioning capacity, the panel can be

pipes with variable thickness, cross section.

Does that improve the depreciation characteristics of structures. At the final stage of the movement, the wedge-shaped edges of the ribs are centered by the depressions of the protrusions tS 5, whereby the fins of one carrier layer are established symmetrically with respect to the ribs of the other carrier layer and it is possible to restore the exact original shape of the panel after exposure. On the other hand, the load-bearing capacity of the panel increases in a state of damping due to the engagement of (rigid) one layer relative to another. After exhausting its cushioning capacity, the panel can be

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The panel consists of supporting sheets 1 and 2 with edges 3 and 4, respectively. Plates 5, 6 are installed on plates 1 and 2 against the ribs 3 and 4 of the opposite plate, forming counter cavities under the wedge-shaped tops of the ribs 3, 4. Thin-walled plastic pipes 7, 8, 9 (closed profiles) are located between the ribs 3, 4 made from material with

high fatigue strength on the pin-25 is again brought into the original creep. The pipes have an elongated bottom by supplying a liquid or gas under pressure through a line normal to the carrying into the internal cavities of the design layer 1, 2, along the lateral faces of the eber.iii. When this happens, the reverse operation occurs. The pipes are connected on the lateral surface and the inversion of plastic pipes. With each other and with the ribs 3, 4. The connection, with the increased cushioning during construction, is carried out along the lines, it can withstand several cycles to the ribs 3, 4. The thickness of the series-loading pipes without destruction while maintaining - decreases from the pipes connected to the edges - and high load stability, breaks one plate, to the next. The layers that are carried from the outer carrier layer to the outer layer are made of rigid high-internal layers. durable materials, for example, alloyed-35

sing steel, berry; pipes - for example, in order to optimize the power characteristics of titanium alloys. To facilitate the construction of the panel internal surface

The ribs are made hollow. can be outlined in arcs with linear increase in pipe thickness from

For the manufacture of the proposed end arc to another. In this case, the thickness of the struc- ture is glued to the supporting layers of each pipe, it is advisable to change the hollow ribs 3, 4. The blanks are assembled in such a way that at the end of their turn they rotate with the pipes by means of a snap-cutting motion that turns them into each other. a provision would be subject to its thickening relative to another. Pipes are connected plots. Intermediate pipes 8 may intersect along narrow lanes, for example, be filled with lightweight materials bonded to the inner surface of the pipes.

Claims (2)

Invention Formula by gluing. If the loads acting on the panel are small, the structure works like a resilient panel. When acting on a panel of significant pressure force from the ribs,. 1. A multi-layered panel comprising 4 is transferred to pipes 7 having the smallest bearing ribbed plates, edges of a single thickness. Tubes 7 come in rotation, of which are located in the intercostal space-forward motion, absorbing the other gaps and are connected by elastic-external energy and creating the first uro-compliant connections in the form of pipes, the degree of damping resistance increases. that, in order to improve the amor- After the tubes 7 are pressed into the carrier 55 of the tizatsionnyh characteristics and increased layer 2, the second carrying capacity of the panel begins to turn, between the reb-pairs of the pipes B. As the pipes 8 are pre-thickness, additional pipes are installed, t The thickness of the pipes 7 will increase when coupled with the main and between themselves. progressive increase in depreciation resistance. At the same time, the course of depreciation of the panel increases significantly, which improves the depreciation characteristics of structures. At the final stage of movement, the wedge-shaped vertices of the ribs are centered by the valleys of the projections 5, whereby the ribs of one carrier layer are installed symmetrically with respect to the ribs of the other carrier layer and it is possible to restore the exact original shape of the panel after exposure. On the other hand, the load-bearing capacity of the panel increases in a state of damping due to the engagement of (rigid) one layer relative to another. After exhausting its cushioning capacity, the panel can be again brought to its original position by the supply of liquid or gas under pressure into the internal cavities of the structure. When this happens, the reverse working inversion of plastic pipes occurs. With an increased course of depreciation, the structure can withstand several loading cycles without destruction, while maintaining and high stability of the load transmitted from the outer carrier layer to the inner one. Invention Formula gosloynnaya panel, including ribbed plates, the ribs are located in the inter-ah of the other and are connected by connections in the form of tr so that, in order to improve the characteristics and benefits of the panel, the additional and the thickness of the pipes is successively reduced from the pipes connected to the ribs of one plate to the subsequent ones, with the tops of the ribs having a wedge-shaped shape, and the plates being made with guides protruding against the ribs of the other plate and forming counter cavities under the wedge-shaped tops of the ribs. 2. The panel according to claim 1, characterized in that the inner surface of the pipes is outlined along arcs with an increase in the thickness of the pipe from one arc to another. 5 9 1 cfJue.S Editor M. Kelemesh Order 2291/26 Compiled by E. Chern vska Tehred I. Veres Corrector A. Zimokosov Circulation 665 Subscription VNIIPI USSR State Committee for Inventions and Discoveries 1 13035, Moscow, Zh-35, Raushsk nab. 4/5 Production and printing company, Uzhgorod, ul. Project, 4