DE6927809U - COMPONENT - Google Patents

Description

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* ... patent attorneys Dipl.-Eng. F. Weickmann _s

D1PL.-ING. H.Weickmann,

DiPL.-InG. F. A / WeICKMANN, DiPL.-ChEM. B.

'' 4. . MONKS 27 DEN

MDHLSTRASSE 22, CALL NUMBER 483921/72

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_p THE DOW OHEMICAIi COMPAHY

Midland, Michigan, V. St .A.

Component.

The present innovation relates to an improved component that is used as a temporary aircraft runway or driveway can be.

There are many levels, which can be dismantled, with each other v-ai? - bindable components known to form floors, wings, ship docks or bridges, driveways or aircraft runways can be put together. One of these types of components has a top and bottom surface that extends through longitudinal webs are kept at a distance, through which rectangular cavities or channels are formed, what one these components viewed in cross-section. So far, such components have been sufficient, especially if they are often high Were subjected to shock loads, not the requirements because the shear and bending stresses that occur exceed the ability of the webs to withstand such stresses without picking up detrimental deformations or fatigue broth. The rectangular ducts become under these stresses bent or deformed into parallelograms. With repeated loading, the channels are repeatedly warped that

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Bars increasingly lose the property of permanent deformation to resist or prevent fatigue failure and the element will eventually fail.

According to the present innovation, an improved component is specified that has a high resistance to a Has deformation and deflection and therefore has a longer useful life.

According to the present innovation, a basic component is specified, the upper and lower flat surfaces, which by several longitudinally extending, vertical webs be kept at a distance from each other. The improvement provided according to the present innovation is that into the cavities or channels formed by the upper and lower walls and the webs adjoining them, in the Distance from each other fixed inserts are introduced that

i have such a shape and strength that they have increased resistance to deflection and / or deformation under high loads.

In the following, the innovation will be explained in more detail with reference to in the drawing j Preferred embodiments shown in the illustration are explained. In the drawing, it's own

Fig. 1 is a partial isometric view of an embodiment a component designed according to the innovation,

Figure 2 is an isometric view of another pattern of fixed inserts in the structural member;

3 shows a partial section through the component shown in FIG. 1,

4 shows a partial section through another embodiment a component designed according to the innovation,

Pig. 5 is a partial sectional view of one designed according to the innovation Component in which a preferred design of a fixed insert is shown, and

Pig. 6 is an isometric view showing a particular embodiment a landing mat plank designed according to the present innovation is shown.

In Pig. 1 there is shown a component generally associated with the Reference numeral 10 is denoted, which is an upper surface 12, a lower surface 14 and a plurality of longitudinal, vertical Has webs or stiffening members 16. Through the upper and lower surface and the webs are cavities or channels 18 formed. Included according to the present innovation these channels 18 spaced apart fixed inserts 20th

The fixed inserts 20 have such a shape, strength and spacing in the channels from one another so that they give the component an additional resistance to deformation of the component when a such a component is exposed to frequent shock loads. The Pig. 1 and 2 have two for illustration purposes only Examples of the possible spacing of the fixed inserts in the component. As a material to be used for the fixed inserts are for example metals and alloys, Hölaier and Suitable for plastics.

The inserts 20. can be made from substantially solid pieces of material exist, as shown in FIGS. 1, 2 and 3, or they can preferably consist of a construction frame or consist of an open grid network, as in the Pig. 4 and 5 is shown. The latter has an open design the additional advantage that the increase in weight of the component is kept as low as possible, while the component at the same time enables a substantial reinforcement.

FIGS. 4 and 5 show a preferred fixed insert 20 from a substantially x-shaped element, which is optionally has at least one side member 22 connecting the cross members; at least one of the cross members has at one open side an outwardly projecting arm 24 of such a size and length, so that this is elastically deflected when the insert is pressed into the channel or groove. When the mission is used, it works the arm 24 as a tension spring, that is to say as a self-locking, in order to keep the insert in its place. Fig. 5 shows for Example only two side members 22; the self-locking insert is also effective without, with one or three side links.

On the other hand, the inserts »if they are in the component are used, can also be attached by adhesive. The inserts can also be made from a stretchable material such as a plastic that expands in heat that expands so that it becomes itself holds in its position. In either case, the inserts can be designed to be integral with the component will.

The members 12 and 14 of the structural member forming the upper and lower surfaces are preferably elongated ones Rectangles, however, other shapes can be used. So that the component 10 and the fixed inserts 20 a light Weight and high strength, it is usually expedient to use these ropes made of aluminum or its alloys but other materials can be used as well.

By using the fixed inserts 20 in the cavities of the structural element can achieve the additional strength and resistance to the above-mentioned deformations to prevent failure of the element. The component specified according to the present innovation resists

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a change in the shape of the canal, i.e. a change to a parallelogram, caused by repeated impact loads or blows.

The present innovation is to be explained in more detail using the following examples.

Example I.

6 shows a special type of structural element, a landing mat plank, which is produced in accordance with the present furnace is. The total thickness of the basic component 10 is 2.5 to 10 cm, with the upper surface 12 and the lower surface 14 are each approximately 2.4 mm thick «. The thickness of each Web 16 is approximately 2.4 mm, the webs generally arranged perpendicular to the upper and lower surfaces and with their centers spaced about 4.4 cm apart sxnd and run in the longitudinal direction of the plank so that thirteen channels 18 are formed. The inserts 20 have a similar configuration to the insert shown in FIG. 5, the cross members about 3.2 mm and the Side members 22 and locking arm 24 are approximately 1.6 µm thick and 75 to 200 # the length of the longest cross-sectional dimension of the channel, i.e. the height or the width. The stakes are only to? Explanation in a longitudinally repeating 3-2-5-2 pattern with a distance of the centers of about 15 approx arranged. The planks are cut to lengths of approximately 0.6 a wide raid 4 m long, and they can be used with others Landing mat planks, for example through end connection elements 26 are connected to each other.

Example II

Two samples of a component, which had a similar structure to the component described above, with a length of 15 cm, 48 cm wide and with 13 through the upper and lower surface and the canals formed by the webs were examined

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exposed. One sample was in each channel of the test element According to the present innovation trained fixed inserts are used, which are made of an aluminum alloy passed and had a similar design as the insert shown in Fig. 5, with a length of 3.8 cm. The other element was used as a control and contained no inserts.

Various forces were applied perpendicularly to the surfaces of the test and control samples. for any force applied was the size of the deflection as a measure recorded for the stress on the element. A graph was obtained showing the applied Force was plotted against the measured deflection. An arbitrary force failure point has been established in which the plotted curve became noticeably non-linear.

The point of failure for the element with no inserts was approximately 1300 kgf. The failure point of the with the element provided with the inserts was exposed to stress of about 3500 kp. Thus, the element improved according to the present invention withstands stresses without failure are more than double the loads of a conventional element without an insert.

Furthermore, a final load of approximately 2020 kp was then allowed to act on the element without use, whereby the measured permanent deflection from the horizontal was more than 1.9 cm. On the other hand, the constant distraction was of the element provided with inserts only 1.25 cm after the application of a final load of approximately 3700 kg against the horizontal. Thus, the improved element formed in accordance with the present invention can be significantly higher Withstand stresses with significantly less permanent deformation than a conventional element without an insert.

Claims (3)

-Γ a L η U I claims 1. Component especially for use as a temporary one Aircraft landing strip or as a route, characterized in that the structural element has an upper (12) and a lower (14) Has surface which are held at a distance from one another by webs (16) extending in the longitudinal direction, that these surfaces and the webs form a plurality of channels (18) visible in cross section, and that at least one rope of these Contains channels to increase the resistance of the component to loads fixed inserts (20). 2. Component according to claim 1, characterized in that an insert consists of a substantially x-shaped element (20) consists of two diagonally extending cross members and an outwardly extending arm (24) has at least one of the cross members, wherein the length of this arm is chosen so that the arm bends elastically when the insert is inserted into a channel (18) and exerts pressure on the channel wall, when the insert is deployed. 3. The component according to claim 2, characterized in that at least one of the ends of the diagonal cross members Insert connecting side member (22) is provided and that an outwardly extending arm (24) is attached at least one of the cross members is formed on a different side than the side through the side member (22) is connected. 27809