FI110238B - Process for making a box beam and according to the method a box beam and structural part for a box beam - Google Patents

Description

110238 1 (10)

METHOD FOR MANUFACTURING THE BOX AND THE BOX AND THE COMPONENT PART OF THE BOX

The present invention relates to a method for manufacturing a housing beam from a plurality of separate prefabricated structural members, a fixed-joint housing member and a prefabricated housing member.

The beams according to the invention can be used in a variety of applications, such as, for example, parts of buildings and structures, columns, beams, bridge structures, enclosures, etc. The pipe beam is one example of a beams. Various materials, such as steel and aluminum, which can be welded together can be used as the material of the components of the housing beams according to the invention.

In addition, combinations of different materials can be used so that the components of the finished box beam are made of different materials. The various components of the beam may also be made of different steels.

* 1 · * * · '.'. ' The following focuses on tubular structural profiles 1 made of steel.

• * * ♦ * '* to the application area of the pipe beams, which constitutes an important application area for the present invention' · · · *. For the production of conventional steel pipe beams, efficient mass production methods have been developed that can produce * · * 'efficiently standardized, standard length and standard cross sectional profiles.

Tube beams are manufactured eg. * * * »» ... ... bending the steel strip into a round tube is welded by a high-frequency welding without additive to a tube, which is further formed into an angular tube bar between the rolls. The disadvantages of their use are the cross-sectional shapes and •; Limitation of dimensions and wall thicknesses used to standard dimensions and standard •.:. · Materials. Specially-sized and special * * cross-sections required in small batches cannot be manufactured economically in a well-known mass-production process. Also, it is not possible to produce variable cross-sectional pipe beams j 110238 2 (10) by known methods of mass production of pipe beams. Especially for architectural objects, there is an increasing need to use freely selectable and also variable cross-sectional sections as well as curved structural profiles. Also, for applications where the optimization of the weight and strength and stiffness properties of the housing beams is required, standard tube beams are extremely unsuitable. To overcome the drawbacks shown, it is generally known and common practice to fabricate special sections by welding together to obtain the desired cross-section. Conventionally welded corners or butt-welded components are used, which places extremely high precision and quality requirements on the precision and quality of the parts being manufactured to guarantee the quality and strength of the joint.

Japanese Patent Publication JP9239626 discloses a manufacturing method and apparatus for producing a tubular structural profile assembled from discrete parts by a mechanical joining method. Use of the presented method requires; '· · However, very large production volumes to be profitable and the · »: · method is not possible to produce variable cross-sections. In addition, the structural construction of the structural members shown in the '' structural profile is complex and requires a high degree of prefabrication of the structural elements.

The present invention overcomes the above drawbacks and further achieves significant improvements both in the properties and optimizability of the case beams and in the rationalization of the production of the case beam.

The present invention is characterized by a profile of a · · · · "or sheet-like structural member of the housing beam forming a support and control element and: in the case of a welding joint and a" · "root welding joint or welding manipulator The invention is particularly well suited for the production of small and medium-sized batches 110238 3 (10) as well as for demanding individual products. It is possible to use efficient welding methods, such as mechanized powder arc welding. for a straight plate edge to be joined to the shaped component, since the location of the plate edge in the overlapping seam can vary without affecting the function of the joint or the appearance of the seam. During the assembly beam assembly phase, the parts are supported by one another, which eliminates the need for guides and jigs compared to conventional straight plate edges.

In the industrial application of the invention, it is advantageous to make a few different types of standard structural members or standard profiles with an edge shape according to the invention, for example by an effective roll forming method and to manufacture other housing components:

'' * The bending radius of the component is manufactured using the smallest bending radius * ... *, most preferably of sheet thickness.

The casing beam according to the invention is also particularly suitable for use with a steel / concrete composite structure, whereby the casing beam made of steel * · i · · acts as a structural casting mold for concrete and also forms part of the reinforcement. . The steel surface of the composite beam or pillar can be easily accessed by: welding attachments and a steel casing to serve as mechanical '··· * protection for concrete and fire protection for concrete.

DETAILED DESCRIPTION OF THE INVENTION The following describes the details and applications of the invention in the form of drawings.

110238 4 (10)

Figures 1 and 1.1 show basic solutions of a cross-sectional seam of a housing beam member according to the invention.

Figure 2 shows a rectangular profile applied invention, the figure shows a cross-section of the box beam.

Fig. 3 shows an embodiment using two identical standard profiles and freely dimensioned planar structural members according to the invention, Fig. 3 shows a cross section of a junction box beam.

Figure 4 shows a preform of a standard profile made by roll forming, which can be made by edging the standard profiles of Figures 4.1,4.2 or 4.3.

Figure 5 illustrates an embodiment of the invention in which the webs of the box beam are shaped.

Fig. 6 shows a side view of a variable beam cross-section.

M M * '· ·. Figure 7 illustrates an embodiment in which the conical pillar is manufactured using the standard profiles of the invention and edged plate members.

Fig. 8 shows an embodiment in which the housing beam according to the invention is used in the composite structure, Fig. 8 is a cross-sectional view of the housing beam.

* »·. Fig. 9 shows an oval cross-section made by roll forming • »'·; · 'A blank according to the invention by connecting the blank to each other.

Fig. 1 is a cross-sectional view of the joint between the structural members of the housing beam according to the invention. The edge of the component 1 is shaped such that it overlaps the 110238 5 (10) joint with the straight edge of the component 2 from the "L" joint! the outer surface being a planar upper surface. The structure and shape of the joint allow the manufacturing tolerance of the component 2 to vary within dimensional variation "AL" without affecting the function or appearance of the joint. The material strengths S1 and S2 of the components 1 and 2 may be the same or different from each other, whereby the dimension "h" of the component 1 is determined by the material strength S2 of the component 2. In practical constructions, the typical material thickness (SI, S2) in the applications of the invention is 3 to 10 mm.

Figure 1.1 shows, in one practical embodiment, a cross-section of a welded seam of a component joint. The edge "N" of the component 2 acts as a guiding element for the welding manipulator or robot in the welding, whereby the mechanization or automation of the welding is practically possible.

Fig. 2 illustrates an embodiment of the invention in which, for example, a standard profile made by roll forming »· ', component 3, is connected to a bevelled U-profile,

''. ' The dimension H 'of the component 4 is defined by the total height H of the housing beam

according to the requirements. The manufacturing inaccuracy of the dimension H 'of the component 4 can be compensated to a certain limit * *' · * 'at the seam at the joining step of the component parts. The casing beam according to the invention is characterized by the large radius angles described in Fig. * · '' *, Whereby the surface treatment of the casing beam, for example, by painting is more advantageous than in the case of sharp-angled profiles. In addition, the structure · · works more robustly than the sharp-angle structure profile.

* t t »I | »» T '; The housing beam shown in Fig. 3 is formed of two identical t »; 'standard profile, joined by planes of desired length', ·: web plates. The wedge-shaped shape of the web plates easily provides a · '* variable beam housing.

6 (10) 110238

Fig. 4 is a cross-sectional view of a standard profile blank according to the invention which can be further processed by milling, e.g. 4.1 and 4.2 and 4.3 in the form of standard profiles. Of course, standard profiles can also be roll-formed directly into their final form, without the need for a separate further processing step. The standard profile shown in Figs. 4 may also be asymmetric with different bends at different edges of the board or only at one edge of the board.

Fig. 5 is a cross-sectional view of an embodiment of a housing beam according to the invention using two identical standard profiles and a web of desired webs connecting them. In beam structures, the material thickness of the web panels can be significantly lower than that of the upper and lower arches, making them easier to design by a variety of methods, thereby producing diverse and impressive architectural structures.

_ '·,. Fig. 6 is a side elevational view of a housing beam with the invention as the upper chord. Y; U-shaped standard profile, 6.1, is bent to a curved shape. The housing beam: · ·: The lower curve also has a standard U-profile according to the invention, which is straight. Shaped webs are welded between the chords: '' to form an '' architectural variable cross-sectional beam structure. The casing beam may have a cross sectional structure such as that shown in Figure 3.

* "* Figure 7 is a cross-sectional view of a conical pillar structure. The structure consists of two standard profile profiles with a constant cross-section according to Fig. 4.2 and two jigsaw blanks, edged ':': centrally and with the same radius as the profile profile.

: '·. Fig. 8 is a cross-sectional view of a housing beam according to the invention for use in steel / concrete composite structures. The structural members 8.1 and 8.2 are special applications of the same profile and having the edge profile according to the invention, in which the edge shape is further provided with one or more additional bends forming the structural profile for connecting the gripping member 8.3, concrete and steel. Most preferably, the inwardly engaging member is surface roughened or profiled or provided with holes for effective engagement. The shelf levels formed by the gripping members can also be utilized to fasten and support additional reinforcements inside the tubular beam. The structure according to the invention enables the inside of the housing beam to be assembled after which the housing beam is assembled by welding. In the case of a beam structure, the top surface profile is provided with concrete drain holes.

The drawings show only a few examples of the practice of the invention. The properties of the invention are at their best in the manufacture of freely deformable and dimensionable and variable structural profile cross-sections, and the number of practically practicable cross-sectional and structural options is almost unlimited.

The invention is characterized in more detail by what is stated in the claims.

* ·

Claims (15)

110238 8 (10) A method for producing an elongated housing beam made up of at least two separate prefabricated structural members by solid connection, characterized in that the edge profile of the at least one structural member is formed to form an overlapping support surface for the structural member and the outer surface is planar, i.e. the edge of the first sheet is displaced by the thickness of the second sheet. Method according to Claim 1, characterized in that the structural members are made of a material to be welded and that the structural members are joined to each other by welding at least on the outside of the finished structural profile. Method according to claims 1 and 2, characterized in that. # the edge profile of the components is shaped by plastic roller dowel • #. moldable material. • t '1 ♦ »♦. · · '. Method according to claims 1 and 2, characterized in that the edge profile of the * 1 components is formed plastically by means of an extrusion press: "1. Method according to Claim 1, characterized in that the shaped edge of the component: the joint which forms the joint extends overlapping the components. '. after the joint surface, bent inside the finished structural profile, i, _ '' '. Elongated casing beam formed by a solid connection of at least two separate prefabricated structural members, characterized in that the edge profile of at least one 110238 9 (10) component is shaped such that it forms an overlapping supporting surface parallel to the surface of the finished casing beam and that at the junction of the components the outer surface of the housing beam is planar. Housing beam according to claim 6, characterized in that the structural members are made of weldable material and that the structural members are joined to each other by welding at least from the outer surface side of the finished structural profile. Housing beam according to claims 6 and 7, characterized in that at least one component is made by roll forming. Enclosure beam according to claims 6 and 7, characterized in that the edge profile of the components is formed by a press press. Enclosure beam according to claim 6, characterized in that the components, ·. the formed forming edge of the joint continues after the overlapping of the structural members ....: bent inside the finished structural profile. 'I Enclosure beam according to Claim 6, characterized in that at least one: the structural member of the enclosure beam has a variable cross-section, wherein the structural member formed by the structural members has a variable cross-section. • * 12. An elongated prefabricated part of a housing beam, characterized in that it comprises •; ; a sheet region having at least one longitudinal side at a distance from the edge: "": bent and displaced parallel to the sheet, preferably to. , ·, For the thickness of the plate to be joined to form a stepped plateau for joint welding. 110238 10 (10) Casing beam section according to Claim 12, characterized in that the sheet region is provided with a bend or bends corresponding to the shape of the cross section or section section of the casing beam with respect to the longitudinal axis of the sheet region. A housing member according to claim 12 or 13, characterized in that, after bending to form its cross-section, the member is bent longitudinally or in the shape of a desired contour. A housing member according to claim 12, 13 or 14, characterized in that the plate thickness is from 3 to 10 mm. 11 110238