DE2004996A1 - - Google Patents

Description

Component

The invention relates generally to a single uniform component that overlaps a same component can to form an uninterrupted component that can withstand axial and bending loads, and in particular on purlins and pillars for metallic building structures.

Well-known purlins have certain weaknesses for various reasons. 3? Ig.1 to 4 show such known purlins, the have generally proven to be unsatisfactory in practice.

i shows two G-shaped purlin sections 10, which are about a roof beam are screwed together web to web. the the roof beams 12 supporting the purlins 10 are relatively sturdy components such as double T-beams. The purlins for their part carry the roof panels, not shown. The main disadvantage of this arrangement is that the top flanges 10a of the 0-shaped purlin sections over the length of the Not aligned with each other, which makes it difficult to drill the holes for fastening in the roof panels.

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Ren. Accordingly, the fastening means can not in in a straight line across the roof, but they must be at the end of each purlin section 10 can be offset.

Fig.2 shows a known overlapping Z-shaped Purlin H, which has some disadvantages of the design according to Fig.1 avoids ionic reinforcements Ha are in a blunt Angle to the flanges Hb arranged so that the sections should fit into one another. In practice this is as can be seen from Figure 3, but not the case, since it I) it is not possible to interleave the sections H in this way or to overlap and to nest the flanges Hb so completely that there is no gap. This defective Fitting causes various difficulties when attaching the roof panels with self-drilling or self-tapping screws because the flanges Ha will not be tight when the fasteners are drilled into them can be contracted.

Figo4 shows yet another type of known Z-shaped Purlin 16, in which the flanges 16a are of the same width. Accordingly, the sections cannot be nested and a separate connecting plate 18 must be used P to connect the abutting purlin sections 16 to connect over the roof beam 20. This construction does not have such strength at the location of the roof beam 20, v / how it results from an overlapping connection. The purlins 16 must therefore to an additional To have firmness, bigger oilers * are closer together.

According to the invention, a uniform component is created, which consists of a web with parallel flanges on its edges, with the edges facing away from your web the flanges are inwardly curved and substantially

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run parallel to the web in order to reinforce the leg to build. The component is designed so that one flange is wider than the other Plansch, whereby the difference corresponds to at least twice the wall thickness of the component, so that the total dimension of the narrow! flange corresponds at most to the inside dimension of the wide flange; whereby one of the components when it is turned about its longitudinal axis, it fits into another such component, with the narrow flanges of the components cling to the inside of the matching wide flanges of the components to form a fold to form an intimate contact essentially about maintains the entire flange width and has such a small area offset that a continuous component arises, which absorb axial and bending loads can.

When two uniform sections are connected according to the invention to form a continuous component, the overlapped part has double strength and the reinforced area is where the maximum bending moment occurs. -

According to one embodiment of the invention be "If _V of the same shaped member in cross-section a Z-shape desired, the two Z-shaped can as ineinandergelegt'werden sections, that a U-föraiger resulting component in cross-section, which can be used as the pillar, wherein the sehmale flange of one component lies completely against the inside of the matching wide flange of the other component and the webs are located at a distance from one another.

According to another Ausfülirungsbeispiel 3rfindung of the same shaped member in cross-section may G-fcrmig _t be carried out. ·

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Ultimately, the properties of the uniform Component by extending the edge reinforcements of the narrow flange so that the properties the flanges become equal.

The drawing shows exemplary embodiments of known components and exemplary embodiments of components according to the invention, namely are:

1 shows a perspective view of two known C-shaped purlin sections which are bolted to one another web to web over a roof beam,

2 shows a perspective view of overlapped known C-shaped purlin sections,

Fig. 3 is a section along the line 3-3 of Fig. 2,

Figure 4 is a perspective view of other types of known Z-shaped purlin sections with flanges same width,

5 shows a perspective view of two overlapped or nested Z-shaped purlin sections according to the invention,

Fig. 6 is a cross section along the line 6-6 of Fig. 5,

7 is a perspective view of a. Embodiment with two overlapped or nested C-shaped purlin sections according to the invention,

Fig. 8 is a cross section along the line 8-8 of Fig. 7 and

Fig. 9 is a perspective view of another embodiment of two Z-shaped purlin sections

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th according to the invention, which are nested so that a cross-sectionally U-shaped profile of a component is created that is used as a supporting pillar. can be,,

While the subject matter of the invention is explained as a single uniform component with a Z-shaped cross-section and as a single uniform component with a 0-shaped cross-section, it should be noted that the subject matter of the invention is generally a single, uniform component made up of a web with parallel Flanges at its edges consists ο Although this is not necessary, the paddles can be essentially perpendicular to the web and the flange edges facing away from the web can be bent inward and run essentially parallel to the web in order to form edge reinforcements. One of the flanges is wider than the other, the difference being at least twice the wall thickness of the component, so that the overall dimensions of the narrow flange are at most the inner dimensions of the wide flange. If one component is turned around its longitudinal axis, it will can overlap the other component in this position, d h ₀ that the narrow flanges of the components lie in or fit into the wide flanges of the other components to form a fold which provides intimate contact across at least substantially the entire flange width and in some cases both the webs and the - ^ Maintains antenna reinforcements, which with a small surface displacement results in a continuous component that can absorb axial and bending loads.

Figures 5 and 6 show a preferred embodiment of the uniform component according to the invention. Three Z-shaped purlin sections 20, 22 and 24 overlap or are nested and with two roof beams 26 and "

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28 connected. In this way, a doctrinal number of Z-shaped purlins are arranged on various roof beams and roof panels (not shown) are attached to the purlins will.

According to FIG. 6, there is each Z-shaped purlin section from a web (a) with parallel flanges (b) and (c) on its edges, never flanges can essentially become the web run at right angles, and their edges facing away from the web (d) can be bent inwards and are substantially parallel to the web (a) to form edge reinforcements. The splash (c) is wider than the splash (b). The difference in width is at least twice the wall thickness of the Component. Accordingly, the overall dimension of the narrow flange (b) at most the inner dimension of the wide flange (c). If one of the components is rotated about its longitudinal axis, it can thus have another Overlap the component, whereby the narrow flanges (b) of the components into the insides of the matching wide ones Flanges (c) of the other component are inserted or fit into them to form a fold, the one intimate contact at least substantially over the entire flange widths (b) and (c), and in a preferred embodiment via the webs (a) and / or the Xanten reinforcements (d) if, for example, the overall dimensions of the narrow flanges (b) essentially correspond to the internal dimensions of the wide flanges (c). This results in a slight surface displacement and thus forms a continuous component that dips in the axial and bending directions can accommodate.

According to FIG. 5, the continuous component is formed from the individual Z-shaped purlin sections 20, 22 and 24. The individual Z-shaped purlin sections 20, 22 and overlap or are nested, the

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narrow paddles 20b, 22b and. 24b in the inner sides the matching wide flanges 20e, 22c and 24c of the components fit in. After the purlin section 20, 22 and 24 hichs overlap or are nested, fasteners 30 "are used to secure the abutting To connect webs 2Qa-22a and 22a-24a. The fasteners 30 are also used to denote both the Plansclie 20c ″ and 22b as well as plans 24c and 22b to be connected to the roof beams 26 and 28, respectively. The purlins can also be connected to the roof beams in a modified manner, such as above the Roof beam 28 is shown where the bolts are attached to the web and pass through a tab 28a attached to the Roof beam is attached.

After a plurality of purlins have been arranged on the roof beams, purlin brackets (not shown) can, as usual, be used or spacers are used for the greases * However, if the roof beams are close enough together, or if the purlins are strong enough, · there are none Purlin clips or spacers required.

When two, Z-shaped components are connected to form one To form a continuous component, the overlapping or nested part has double strength and a reinforced area where it is for the maximum bending. moment is required. It is also important that when the edge reinforcements (d) are folded inwards and run parallel to the web (a), the purlin sections 20, 22 and 24, after being overlapped or nested, resistance to dismantling oppose.

It should also be noted that the edge reinforcement (d) of the narrow flange (b), if necessary, can be extended so that the properties of the two plan-

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see be equal to the properties of the uniform Compensate component.

Figures 7 and 8 show a further embodiment According to the invention, wherein the C-shaped members 32, 34 and 36 over roof beams 38 and 40 overlap or nest one inside the other are »Each C-shaped component 32, 34 and 36 has a web (e) with parallel flanges (f) and (g) at its edges, the flanges (f) and (g) run preferably at right angles to the web (e) and its edges (h) are bent inward and run substantially parallel to the web to form edge reinforcements. One of the flanges (g) of the C-shaped members 32, 34 and 36 is wider than the other flange (f). The difference in width is at least twice the wall thickness of the C-shaped component »Accordingly, the overall dimension of the narrow flange (f) corresponds at most to the Inside dimension of the wide flange (g). If one of the C-shaped components is rotated about its longitudinal axis, can so he overlaps another of the C-shaped components, the narrow flanges (f) of the C-shaped components in fit or lay inside the matching wide flanges (g) of the C-shaped components can be used to form a fold which forms an intimate contour at least over the entire width the flanges (f) and (g), and in a preferred embodiment) if, for example, the overall dimension of the narrow flange (f) is substantially equal to the inside dimension of the front flange (g) maintains intimate contact of the edge reinforcements (h) and forms one continuous C-shaped component, the axial and bending loads can accommodate.

After the C-shaped members 32, 34 and 36 overlap or have been nested, they are permanently connected to one another by fastening means 30 and connected in the same way to the roof beams 33 and 40.

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Additionally, purlin brackets or spacers can be used be used in the usual way where it is necessary is ο It should also be noted that the continuous G-shaped component either as a pillar or as a beam can be used"

It should also be noted that the balanced C-shaped Components 32, 34 and 36 with an extension of the edge reinforcement (h) of the narrow flange (f) can be produced, so that the properties of the two flanges are the same.

According to the invention, a single uniform component is used created that can be overlapped with another such component to form a component with a larger Form length as it can be practically manufactured, loaded, handled or assembled. As long as the overall dimensions of the narrow flange and the inside dimensions of the wide flange, as stated here, can be retained, components with different Material thicknesses see overlap. The uniform one Component according to the invention also avoids twisting of the component sections, which provides a smoother surface for attachment of the roof panels results than is possible according to current practice.

The invention also creates a certain safety factor, because the flanges are nested or matched when the component sections are assembled on the roof. Then it is impossible for a flange from its matching flange of the second component section to come out.

Referring to FIG _e 9 of the invention, two Z-shaped members are in accordance with 42 and 44 folded so that they together form a U-shaped in another embodiment, transverse

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make cut. This component can be used, for example, as a support pillar or carrier. The Narrow Flange 42b of one part lies on the inside of the matching wide flange 44c of the other part and the ridges 42a and 44a are spaced from one another.

If desired, a cover plate 46 can be arranged so that they do not interfere with the seam between them connected flanges 42c and 44b of the Z-shaped components 42 and 44 covered. The resilience increases with distance the flanges enlarged from each other. The one consisting of the flanges 42c and 44b on the trim panel 46 Continuous wall cladding also makes the inner or outer wall of a cover or the like more decorative.

It should also be noted that the system according to the invention can be used to add a component to reinforce an additional section of the same component, Furthermore, the object according to of the invention through the use of fastening means and through the arrangement of holes provide an opportunity to produce a telescoping section that is adjustable in length.

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Claims (1)

- 11 - P- a t e η t a η s ρ r ü c h e Component with a uniform shape that consists of a bridge with parallel splashes on its edges consists, wherein the edges of the planche facing away from the web are bent inward and substantially run parallel to the web to create edge reinforcements to form, characterized in that one puddle is wider than the other puddle, wherein the difference is at least twice the wall thickness d, it corresponds to the component, so that the overall dimension of the narrow flange corresponds at most to 'the inside dimension of the wide flange, whereby. one of the components when it is turned around its longitudinal axis is, fits into another such component, the narrow flanges of the components on the inside of the matching wide pool of the Components nestle to form a fold that has intimate contact over substantially the whole Maintains a splash width while keeping such a small one Surface dislocation has that a continuous component arises, which can absorb axial and bending loads'. 2ο component according to claim 1, characterized in that the components are connected to form a continuous To form component in such a way that the overlapped I'eil a double strength and, where necessary, reinforced one Area has. . 3. Component according to claim 1, characterized in that the component is Z-shaped in cross-section. 4c component according to claim 3 i, characterized in that the planes run essentially at right angles to the web = BATH ORIGINAL 009839/1322,, 5β component according to claim 3, characterized in that two 2-shaped components are so nested that they form a U-shaped cross-section, with the narrow flange of one component facing the inside of the matching wide flange of the other component and that the webs are spaced are from each other. 6. Component according to claim 5, characterized by a cover plate, around the unassembled narrow one To connect the flange of one component and the wide flange of the other component that is not joined together » 7. Component according to claim 1, characterized in that the component is G-shaped in cross section. 8. Component according to claim 1, characterized in that the properties of the component are balanced, by extending the edge reinforcement of the narrow flange so that the properties of the two flanges are the same. 009839/1322 Blank page