JP2009508025A - Building support frame structure, especially high-rise building support frame structure - Google Patents

Abstract

  The present invention relates to a building support frame structure, in particular, a certain number of vertical supports (2) and a certain number of cross beams (3, extending laterally (X, Y) and stacked on each other in different planes). , 4). The vertical support (2) and the spar (3, 4) are realized in the form of metal pieces which at least partly comprise at least one cavity (5, 6; 7; 16). A cavity (5, 6) provided in the vertical support (2) and a cavity (7, 16) provided in the spar (3, 4) are connected to the fluid transport pipe (9; 24; 26; 29). Used to house. At the intersection where the vertical support (2) and the spar (3, 4) cross or concentrate on each other, the fluid transport pipe (9; 24; 26; 29) is a fluid transport pipe 3 in the support structure (1). Connected to each other so as to be guided in two spatial directions (X, Y, Z), thereby simplifying the building process.

Description

  The present invention relates to a building support frame structure, and more particularly to a high-rise building support frame structure according to the preamble of claim 1.

  Basically, every building includes a support frame structure consisting of several vertical supports and several cross beams, which extend in the XY directions perpendicular to each other in several overlapping planes. The building also includes individual electrical equipment, water pipes, air conditioners and / or ventilation ducts, and the fluid transport pipes run through the shaft or building wall. Subsequent refurbishment or repair usually costs significant refurbishment costs.

  The present invention is based on the problem of creating a building support frame structure that is specifically designed to have multiple floors and that simplifies the installation of fluid transport pipes to the building and allows simple retrofits.

  This problem is solved according to the invention by a support frame structure with the function of claim 1.

  Further preferred embodiments of the support frame structure according to the invention form the content of the dependent claims.

  The support frame structure according to the invention with integrated fluid pipes that can pass through all three spatial dimensions and / or the frame structure dimension within the support frame structure allows for modular construction of the building, In addition to being equipped in style, it can be refurbished at any time, for example for office, commercial, medical, training, hotel or residential use, thus ensuring a wide range of neutrality and planning long-term projects Can do. The supply of liquid can be expanded, refurbished or reduced, and energy can be optimized at any time.

  The invention is explained in more detail with the aid of drawings.

  FIG. 1 shows a supporting frame structure 1 of a building comprising several vertical supports 2 and several cross beams 3 and 4 extending in the XY direction at right angles to each other. The horizontal girders 3 and 4 are arranged in several layers stacked on each other.

  FIG. 2 shows a vertical support in which two girders 3 extending in the X direction in the horizontal direction and two girders 4 extending in the Y direction in the horizontal direction extend in the Z direction (ie, the vertical direction). 2 shows an intersection of a support frame structure 1 according to the invention attached to 2. It is clear that only three lateral girders 3 and 4 are fixed to the outer vertical support 2 of the support frame structure 1 of each level, and there are cases in which only two girders 3 and 4 may be provided at the corners. is there. Also, in the illustrated embodiment, a short girder protrudes from the outer vertical support 2 and / or the corner supports, for example for attaching side covers, side walls, insulation, etc. However, these digits may be omitted.

  Both the vertical support 2 and the girders 3 and 4 are implemented, for example, as a profile made of metal (preferably steel) or other suitable material, such material being welded, for example from a metal plate, It is also provided in accordance with the present invention to at least partially surround each of the at least one cavity and accommodate a fluid transport pipe, particularly a power distribution pipe, a water pipe, a waste water pipe, a network pipe, a vent pipe and / or other conduit. For example, as can be seen in particular from FIGS. 2 and 3, the vertical support 2 is implemented as a profile having an H-shaped cross-sectional shape. The H-shaped example has two side walls 2a, 2b and a central wall 2c connecting the side walls 2a, 2b, so that two vertical cavities 5 and 6 are formed and separated from each other by the central wall 2c. However, they may be connected to each other through openings as necessary. A fluid transport pipe (eg, water pipe) can pass through the cavities 5 and 6 in the Z direction, as shown in FIGS. 2 and 3 using the example of a conduit 9 passing through the cavity 6. Moreover, the vertical support body 2 can be produced with a cross section comprising various profiles of an open shape and a closed shape.

  The support frame structure 4 extending in the Y direction is fixed to each of the side walls 2a, 2b of the vertical support 2 and preferably joined appropriately by screws or other methods. Has a U-shaped space in cross section, has a web 4a, 4b and a flange 4c connecting the two webs 4a, 4b, and surrounds a cavity 7 accessible from above and from below if necessary. Yes. Each girder 4 also has a pair of upper support surfaces 4a ', 4b' directed inward from the profile webs 4a, 4b, and an extension of the lower flange 4c connecting the webs 4a, 4b. And a pair of lower support surfaces 4d, 4e formed by a flange, directed outward. The support surfaces 4a ', 4b', 4d, and 4e are used as a cradle for the ceiling structure 10 (see FIGS. 2 and 4). According to FIG. 4, the floor structure 11 can ride on the ceiling structure 10 having the frame structure 12, and the cavity 7 can be accessed from above via the ceiling structure 10. The cover 13 can be closed. The shape of the spar 4 may likewise be formed with an asymmetric double T-spar or other suitable profile.

  The cross beams 3 extending in the X direction are attached to the side walls 2 a and 2 b of the vertical support 2. These girders 3 are also realized as a cross-section surrounding a substantially U-shaped space, and have two webs 3a, 3b and a lower flange portion 3c connecting the webs 3a, 3b. 3b and the lower flange portion 3c surround the cavity 16 (see FIGS. 2 and 5). Further, the webs 3a and 3b include inwardly projecting upper support surfaces 3a 'and 3b' on which the ceiling or floor structure 12 can be arranged. The shape of the girder 3 may also be realized by a double T-shaped girder or other suitable profile.

  The cavities 7 and 16 of the cross beams 4 and 3 are provided so as to accommodate the fluid transport pipes, and according to the present invention, the cavities 7 and 16 are all disposed within the support frame structure 1. Are connected to each other and to the cavities 5, 6 of the vertical support so that they can pass in the three spatial dimensions or the support frame structure dimensions X, Y, Z. Thus, for example, the side walls 2a, 2b of the vertical support 2 have an opening 20 at the intersection, as can be clearly seen in particular in FIGS. 4, 6 and 7, via this opening 20 the Y The cavity 7 of the spar 4 oriented in the direction is connected to the vertical cavities 5, 6 in the vertical support 2. The cavity 16 of the beam 3 extending in the X direction is open to the vertical cavities 5 and 6 at the intersection. These cavities 16 are connected to each other through one or more openings 22 opened in the central wall 2c of the vertical support 2 (FIGS. 2, 5, and 7).

  Therefore, for example, the fluid transport pipe 26 can be passed through the opening 22 from one spar 3 to another spar in the X direction (passing through the vertical cavities 5 and 6 laterally). The fluid transport pipe 24 passing in the lateral Y direction is, for example, passed through one of the openings 20 in the side walls 2a, 2b of the vertical support 2 (passes through the vertical cavity 5 laterally). Similarly, branching in all three X, Y, and Z directions is possible.

  At the intersection, for example, the fluid transport tube 9 passing through the vertical cavity 6 can diverge, and the fluid extends, for example, in the cavity 16 in the X direction to another vertical fluid transport tube 9 ′. Through the existing conduit 29 and out of the spar 3 which is open above it can flow to the end unit.

  Advantageously, the webs 3a, 3b and 4a, 4b of the cross beams 3, 4 having a space-sealing cross section are provided with a number of openings 30, 40 which are preferably distributed uniformly over the entire length of the beam for the fluid transport pipe. The openings 30 and 40 connect the cavities 16 and 7 extending in the horizontal direction to the ceiling structure 10.

  The cavities 5 and 6 of the vertical support 2 can be closed by covers 41 and 42 from the outside of the intersection (FIG. 3). This applies to the opening of a closed vertical support profile as well. Similarly, a cover that partially or wholly closes the vertical support may be sized larger than required for the cross section of the vertical support, for example to expand a cavity for a fluid transport tube.

  FIG. 8 shows an application example of a fluid transport support frame structure with six intersections as described above. An equipment space 45 for fluid such as water, electricity, waste water, etc. is arranged in the beam 3 extending in the X direction, and fluid is supplied to the bathroom 46 with the wash basin 47, WC 48, and bathtub 49 on one side. Supply fluid to the kitchen 50 with cooking utensil 51 and sink 52 on the other side. The supply is sent through the fluid transport pipes 9, 24, 26, and the fluid transport pipes 9, 24, 26 pass through the support frame structure to the equipment space 45 and from the equipment space 45 to the termination unit. It should be understood that this embodiment is applicable to any type of technical building equipment.

  The support frame structure according to the present invention with an integrated fluid transport tube that can pass through the support frame structure in all three spatial dimensions or support frame structure dimensions not only facilitates the installation, but also for example office, commercial Can be refurbished at any time for medical, training, hotel or residential use, thus ensuring a wide range of neutrality of use and planning long-term projects. The fluid supply can be expanded, refurbished, scaled down and energy optimized at any time.

  The present invention is fully disclosed by the above description. Obviously, the present invention can be implemented in still other variations. Thus, for example, the spar and vertical support may be made in the form of a closed cross section or other suitable profile. Basically, fiber reinforced composites such as carbon can also be used as a profile material.

It is a figure which shows one Embodiment of the support frame structure of a building. FIG. 4 is a perspective view of the intersection of a support frame structure according to the present invention comprising a vertical support, a cross beam, a ceiling structure, and a fluid transport pipe. FIG. 3 is a cross-sectional view of the vertical support according to FIG. FIG. 4 is a cross-sectional view taken along line IV-IV in FIG. 3. FIG. 5 is a cross-sectional view taken along line VV in FIG. 3. FIG. 3 is a longitudinal sectional view of the intersection according to FIG. 2 through one of the cross beams. FIG. 3 is a cross-sectional view of the intersection according to FIG. 2 passing through both cross beams. It is a top view of the building part which has a fluid conveyance support frame structure.

Claims (11)

  Building support frame structure comprising a certain number of vertical supports (2) and a certain number of cross beams (3, 4) extending in the transverse direction (X, Y) and stacked on different planes, specifically In particular a high-rise building support frame structure, wherein the vertical supports (2) and girders (3, 4) at least partly comprise at least one cavity (5, 6; 7; 16) The cavity (5, 6) provided in the vertical support (2) and the cavity (7, 16) provided in the spar (3, 4) are formed into a fluid transport pipe ( 9; 24; 26; 29), specifically used to accommodate electrical pipes, water supply pipes, heating / cooling pipes or vent pipes, vertical supports (2) and girders (3, 4) crossing each other Or at the intersecting intersections where the fluid transport pipe (9; 24; 26; 29), the fluid transport pipe passes through the support structure (1). One spatial directions (X, Y, Z) building a support frame structure are connected to each other as guided to.   Cavities (5, 6) in the vertical support (2) are connected to one another via openings (20; 22) in the vertical support (2) and / or spar (3, 4). The support frame structure as described.   Each vertical support (2) has an H-shaped cross section, two side walls (2a, 2b) and a central wall (2c) joining the side walls (2a, 2b), thereby providing a central wall (2c). A space-sealing horizontal support frame structure having two vertical cavities (5; 6) separated by each other and having a substantially U-shaped cross section on at least one of the side walls (2a, 2b) at each intersection. (4) is mounted from the outside, and at least one further spatially sealed support frame structure (3) having a substantially U-shaped cross section and perpendicular to the horizontal support frame structure (4) is mounted from the inside The horizontally extending cavities (7; 16) partially surrounded by the support girders (3; 4) are openings in the side walls (2a, 2b) and the central wall (2c) of the vertical support (2). Connected to each other via part (20; 22) Re and cavities extending vertically; supporting frame structure according to claim 1 or 2 is connected to a (5 6).   Outside the intersection, a cover (41, 42) that partially or completely closes the vertically extending cavity (5; 6) in parallel is provided on each central wall (2c) of the vertical support (2). The support frame structure according to claim 3 provided.   The support frame structure according to claim 3 or 4, wherein the horizontal support girders (3; 4) having a spatially sealed cross section are configured to allow access to the cavity (7; 16) from above.   The cross beam (3; 4) includes a support surface (4a ′, 4b ′, 4d, 4e; 3a ′, 3b ′) on which the ceiling structure or the floor structure (10; 11) is placed, and the support surface (4a). ', 4b', 4d, 4e; 3a ', 3b') are arranged so as to project laterally from the web (4a, 4b; 3a, 3b) of the profile having a spatially enclosed cross section. The support frame structure as described.   For the spar (4) extending parallel to the direction (Y), a pair of upper support surfaces (4a ′, 4b ′) formed by the flanges are oriented in the direction of each other and formed by the flanges. A pair of lower support surfaces (4d, 4e) are directed outward as an extension of the lower flange (4c) connecting the webs (4a, 4b), and the ceiling structure (10 The support frame structure according to claim 6, on which is mounted.   Cavities (7; 16) opened above and / or below and / or laterally of the cross beams (3; 4) were provided in the floor structure (11) placed on the ceiling structure (10). Support frame structure according to claim 7, which is accessible via a coatable frame (12).   The web (3a, 3b; 4a, 4b) of the spar (3; 4) with a space-sealing cross-section is distributed along the entire spar length to connect the cavity (7; 16) to the ceiling structure (10) 9. Support frame structure according to claim 7 or 8, comprising several openings (30; 40) formed.   The vertical support (2) and girders (3; 4) are realized as profiles made from another suitable material such as metal, in particular steel or plastic. The support frame structure according to item.   In all three spatial dimensions and / or support frame structure dimensions (X, Y, Z), fluid transport pipes (9; 24) through the support frame structure (1) that can pass through the support frame structure (1); 26. A support frame structure (1) according to any one of the preceding claims, comprising 26; 29).

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