CN1231644C - Modular type bearing structure - Google Patents
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- CN1231644C CN1231644C CN 200310114234 CN200310114234A CN1231644C CN 1231644 C CN1231644 C CN 1231644C CN 200310114234 CN200310114234 CN 200310114234 CN 200310114234 A CN200310114234 A CN 200310114234A CN 1231644 C CN1231644 C CN 1231644C
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- E—FIXED CONSTRUCTIONS
- E04—BUILDING
- E04B—GENERAL BUILDING CONSTRUCTIONS; WALLS, e.g. PARTITIONS; ROOFS; FLOORS; CEILINGS; INSULATION OR OTHER PROTECTION OF BUILDINGS
- E04B1/00—Constructions in general; Structures which are not restricted either to walls, e.g. partitions, or floors or ceilings or roofs
- E04B1/36—Bearings or like supports allowing movement
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Abstract
The structure comprises several vertical support posts (1) connected by horizontal long span beams (2,10). Certain beams (10) are supported on sloping buttress connecting rods (12) articulated on the posts. These supported beams consist of two juxtaposed spandrels delimiting a central space in which a passive cable (20) passes and is coupled on its ends on corresponding posts. Support of the connecting rods is ensured by end plates (21) between the spandrels constituting the beam and rigidly connected to them.
Description
Technical field
The present invention relates to a kind of bearing structure that comprises a plurality of large span horizontal beams.
Specifically, the invention provides a modular bearing structure, it comprises a plurality of vertical support columns, is connected to each other by all large span horizontal beams, at least some beam is being carried near its end on the support bar of a plurality of inclinations, and the bottom of all support bars is hinged on the corresponding vertical support column.
Background technology
Document FR-A-2 611 781 describes the principle of this bearing structure, this structure has and is used for supporting that long-span beams arranges and fixing system, like this, the overhang bracket of Zhuliang is on the support bar of all inclinations, and the bottom of all support bars is hinged on all vertical pillars.When floor of constructing the macrolattice scale or ceiling, especially when building large-area shop or warehouse, adopt the ability of this long-span beams then to constitute main advantage.At the supporting and the fixed system that are used for the long-span beams of frame on the metal support column, wherein, beam is preferably made by cementing layer cribbing material or composite material, described system arranges by this way: can make the vertical reaction force of the beam weight form with support force is delivered on the corresponding column, thus, the horizontal force of setting up in beam is in longitudinally under the stress, and its result increases the span possible to this beam.
Be difficult to implement although the theory of teaching in the document seems in practice, its reference as science useful theory of still can yet be regarded as therefrom can deduce multiple specific embodiment.
Technical background of the present invention also is illustrated by document BE-A 516 495.The document is described an another kind of structure that is bearing in the beams of metal on all hinged support bars.
Summary of the invention
The present invention seeks to design a kind of modular bearing structure, this modular bearing structure comprises the Zhuliang of overhang bracket on the support bar of all inclinations equally, and the bottom of cramp bar is hinged on the vertical support column, but this kind design provides good characteristic, and makes just honest and clean.
The present invention also seeks to design a kind of modular bearing structure, this modular bearing structure has allly to be made, easily and the large span horizontal beam that is in place quickly by cementing layer cribbing material, simultaneously, can make and have the macrolattice scale, particularly be at least 800 square metres of (m
2) to 900m
2The modular organization of scale.
According to the present invention, this problem solves by a kind of modular bearing structure, this modular bearing structure comprises many vertical support columns that interconnected by some large span horizontal beams, at least wherein a part of large span horizontal beam is being carried near its end on the support bar of many inclinations, the bottom of all support bars is hinged on corresponding all vertical support columns, this structure is characterised in that: the large span horizontal beam that respectively is bearing on the inclination support bar is to be made of two stacked wing plates of gummed that pass through all separator interconnection arranged side by side, described separator forms a central space, one cable is freely by this central space, the two ends of cable are connected on the corresponding vertical support column, beam is carried on the support bar of described inclination by the end plate separately that is arranged between the wing plate arranged side by side, and is rigidly fixed on it.
Therefore, different with the large span cementing layer stoplog described in the above document FR-A-2 611 781 that enumerates, the present invention has the real box-girder that has central space, this central space has the advantage in the use, especially be used for by cable, and at least a portion of all end plates is arranged between all wing plates arranged side by side.Obviously, such design in no case is that above-mentioned document proposes.
In above-mentioned modular bearing structure, all separators of two wing plates arranged side by side of interconnection large span horizontal beam are made the form of a high fill plate and a low fill plate, their each longitudinal extensions along described beam.
In above-mentioned modular bearing structure, high fill plate and low fill plate are made by timber, and are connected on adjacent all wing plates by glue.
In above-mentioned modular bearing structure, the cable that is arranged between two wing plates arranged side by side of a large span horizontal beam respectively presents enlarged head portion on its two ends, this enlarged head portion is received within the end assembled box that is formed on the head end of column, or is bearing on the plate on the head end that is fixed on column.
In practice, if what use is concrete column, then preferably use the end assembled box that is embedded in the column head end (head-end), and if what use is metal upright post, then use the plate that is fixed on the column, so that the supporting of the enlarged head portion of cable thereon.
In above-mentioned modular bearing structure, be arranged in the below of cable by all lateral pins of the described wing plate of interconnection between two wing plates arranged side by side of a large span horizontal beam, all described lateral pins are positioned on the predetermined installation cambered surface, cable is formed supporting-point when the described cable tensioning.
In above-mentioned modular bearing structure, two wing plates arranged side by side terminate on the end face, end face be located immediately at corresponding vertical support column near, described column and safe angle section are equipped with, and reverse preventing.
In above-mentioned modular bearing structure, end plate is arranged between two wing plates arranged side by side, so that be bearing on the support bar of corresponding inclination, end plate is fixed on all described wing plates by all through bolts.
In above-mentioned modular bearing structure, all end plates are made by steel plate, and by a pair of bearing surface terminate in corresponding support bar near, one of them bearing surface is level, another is vertical.
In above-mentioned modular bearing structure, each support bar that tilts presents a Double Circle projection head on its top, and this projection head comprises that one transmits the base projections of a vertical support power and the top boss of a transmission one Horizontal Branch load.
In above-mentioned modular bearing structure, each support bar that tilts can present narrower cross section near its Double Circle projection head, like this, described projection head can be by between the wing plate arranged side by side, then, support region is positioned in the central space that is formed by described wing plate.
In above-mentioned modular bearing structure, each support bar that tilts has a columniform leading edge, and this leading edge is received within on the relevant accessory that is fixed on the corresponding vertical support column, and described accessory presents a cylindrical reel cage with horizontal axis.
In above-mentioned modular bearing structure, each support bar that tilts is made by steel, and is a flat-panel component form along vertical plane extension.
In above-mentioned modular bearing structure, apply anticorrosion and/or fire proofing material on each support bar that tilts.
In above-mentioned modular bearing structure, two wing plates arranged side by side of a large span horizontal beam present a curved intrados, and like this, described beam presents an arch, and this arch is arch maximum height c along the centre of beam.
In above-mentioned modular bearing structure, arch maximum height c is provided by the following relationship formula:
c=0.013×1/2L
Wherein, L is the length of large span horizontal beam (10).
Description of drawings
According to following description with show the accompanying drawing of specific embodiment, other feature and advantage of the present invention will become clearer, with reference to all accompanying drawings, wherein:
Fig. 1 is the stereogram according to the part of modular bearing structure of the present invention, wherein, five large span horizontal beams on the support bar that is bearing in inclination is shown, and in this example, other horizontal beam belongs to traditional type;
Fig. 2 is the stereogram of a magnification ratio, and the head zone (for clarity, the end of horizontal beam is shown as " transparent ") that is presented at the wherein root post (being made by concrete in the present example) in the above-mentioned bearing structure is shown;
Fig. 3 is the stereogram that is carried on two beam end on the support bar of inclination, and for clarity, other element of bearing structure is not shown;
Fig. 4 is the view of magnification ratio that the head zone of a column is shown, in order to show that more clearly the end assembled box is embedded in the described column;
Fig. 5 is the elevation in the zone relevant with a column head, the end of two large span horizontal beams on the support bar that is carried on inclination is shown, the beam on the right side is expressed as in installation process in the drawings, as seen from the figure, shown interim positioner is embodied as the form that is fixed on the support on the column in this example;
Fig. 6 is an elevation that is dissectd out part section at the two ends of beam, and the large span horizontal beam of making box-shaped is shown, and wherein, cable extends along the length of described beam;
Fig. 7 and 8 is along line among Fig. 6 " VII-VII " and the sectional drawing that " VIII-VIII " dissects, and more is shown clearly in the structure of box-girder, illustrates the stacked structure of gummed of the wing plate arranged side by side that forms described box-girder;
Fig. 9 is the partial cross-sectional perspective view of a magnification ratio, the end plate that the front wing panel that forms box-girder is shown and is carried on the described box-girder on the Double Circle head of a support bar that tilts;
Figure 10 is the view that is similar to Fig. 6, a variant is shown, and wherein, long-span beams has an arc intrados, to form an arch; And
Figure 11 is the sectional drawing that dissects along the line among Figure 10 " XI-XI ".
The specific embodiment
Fig. 1 illustrates a modular bearing structure or superstructure S.In this example, the bearing frame of its structure formation one such as building of warehouse or large supermarket, this framework is large-sized cuboid form.
Structure S comprises and a plurality ofly imbeds the vertical support column 1 of ground P by concrete foundation that all columns are connected to each other by many large span horizontal beams.Specifically, the column 1 shown in the figure is to be made by concrete, but the present invention never is limited in this on the one hand naturally, and it can use metal upright post equally, for example, and i iron column (variant does not give and illustrating).In addition, this illustrates quite height, and for example about 10 meters column is provided for the roof of a building or the bearing structure of higher floor with this.It should be understood, however, that the present invention is equally applicable to the bearing structure relevant with supporting the large tracts of land building floor.
Large span horizontal beam 2 and 10 is made by the stacked timber of gummed, but they are made in a different manner.
Therefore, large span horizontal beam 2 is traditional, and its stacked of single gummed by the square-section constitutes, and the height of square-section is 1 meter to 1.2 meters, and width is about 0.2 meter.The end of large span water beam 2 is installed in (more high-visible in Fig. 2) on the metal support plate 40.These metal fittings 40 are traditional, and they are screwed on the side of corresponding column head end with screw.
On the contrary, the large span horizontal beam 10 that is bearing on the support bar 12 of inclination is box-girder type structures, and they will be described in detail with reference to Fig. 2 to 9 below.
Clearly as seen the large span horizontal beam 10 that is bearing on the support bar 12 of inclination is made of two stacked wing plates 16.1 and 16.2 of gummed arranged side by side as Fig. 6 to 8, and they link together by the separator that forms a central space 19.Specifically, the wing plate arranged side by side 16.1 of interconnection large span horizontal beam 10 and 16.2 separator are made a high fill plate 17 and low fill plate 18 forms, and their each longitudinal directions along beam extend.High fill plate 17 and low fill plate 18 are preferably made by timber, and they are connected adjacent wing plate 16.1 and 16.2 by gummed.
This shows, two wing plates 16.1 arranged side by side and 16.2 link together by high and low fill plate, and the structure that is this form is the box-girder of formation one timber really, and it can reach 1.40 meters highly usually, and width is 0.45 meter magnitude, and the span of such beam can reach 36 meters.
One cable 20 can freely pass the central space 19 that forms by this way, and cable is fixed on the corresponding column 1 at its two ends.Because the length of large span horizontal beam 10 can easily reach 36 meters, so, can consider that cable 20 is made is not single, but can make an assembly that comprises several cables, it links together with the connector (not shown) end-to-end in mode traditional in the building trade, make the form of sleeve, especially for the structure of this stay-supported bridge joint (guyed bridge).The effect of this cable 20 will be explained in detail below.
The head end of column 1 is configured to be suitable for the end of each cable 20 of anchoring, and for example, the diameter that such cable has is about 70 millimeters.Specifically, clearly as seen the cable 20 that is contained between two wing plates 16.1 arranged side by side and 16.2 has an enlarged head portion 26 on each end as Fig. 3 and 4, and this head extends beyond the end face of described wing plate.Because column 1 is to be made by concrete in this example, so at one end portion's assembled box 30 is arranged in the head end of column.Therefore, this end assembled box 30 is installed in the top of column, and comprises the metal inner core 35 of an I-shaped cross-section, and it vertically extends together with the hollow space of a pair of open-top.Space 31 is communicated with two sides that formed by slit 32, and described slit 32 can be passed through in the end of cable 20.To the enlarged head portion 26 of each cable 20, a carrying wedge (bearing wedge) that has inclined-plane 33 is set carries head, each carries wedge 33 and itself carries the Zhu Bishang near the space that is formed by slit 32 that is resisted against assembled box 30.
Do not illustrate although give in the drawings, nature can provide the variant of the vertical support column that is made of metal, and wherein, the enlarged head portion 26 of cable 20 can be carried out anchoring by the loaded plate that is fixed on the column head end.
As among Fig. 5,6 and 8 as seen, the cable 20 that is arranged between two wing plates arranged side by side 16.1 and 16.2 of large span horizontal beam 10 passes from the below of the lateral pin 25 of the described wing plate that interconnects.These lateral pins 25 longitudinally are positioned on the installation curve of being scheduled to, and when cable becomes tensioning cable 20 are formed bearing points.Then, Yu Ding installation curve can be embodied as roughly a circular arc line or the camber line of a catenary.As shown in Figure 8, each such pin is embodied as the form of the bolt that passes two wing plates 16.1 arranged side by side and 16.2, and is engaged on its free end by means of nut and is fixed.
As finding more clearly among Fig. 4, two wing plates arranged side by side 16.1 and 16.2 terminate in respectively on the end face 27.1 and 27.2 of perpendicular, they directly be positioned at corresponding column 1 near.In practice, be provided with a little operating clearance amount of magnitude of several centimetres for example, for the end thrust that acts on the large span horizontal beam, nature, this situation is unfavorable, because this can cause the statically indeterminate problem of beam.Specifically, safe angle section 34.1 and 34.2 usefulness screws are screwed on the vertical support column 1, and the lateral vertical ground that makes each angle section lean against wing plate arranged side by side 16.1 and 16.2 extends.These angle sections are safety elements that opposing is reversed, that is, they are used for preventing that box-girder from around its cable any twist motion taking place.
As mentioned above, large span horizontal beam 10 is bearing on the support bar 12 of inclination by end plate 21, and end plate 21 is arranged between wing plate arranged side by side 16.1 and 16.2, and is rigidly fixed on it.Therefore these end plates 21 are arranged between two wing plates arranged side by side 16.1 and 16.2, thereby are bearing on the support bar 12 of inclination, and they are fixed on the described wing plate by through bolt 24.Specifically, end plate 21 or distributing plate are connected in the central space 19 of box-girder fully integratedly.
These end plates 21 are preferably made by steel plate, and contiguous corresponding support bar 12, and they terminate on two bearing surfaces, and one of them is a level, and another is vertical.The end 22 of described end plate 21 is bearing in the situation on the support bar 12 of inclination, can be more high-visible in the view of the magnification ratio of Fig. 9.This view clearly demonstrates two bearing surfaces 22.1 and 22.2 of mutually orthogonal, and face 22.1 is essentially level, and face 22.2 is essentially vertical.This view also illustrates one group of through bolt 24, in this example, has 21 such bolts.The other end 23 of end plate 21 is in the top indentation, so that by cable 20.
Can see that end plate 21 extends along the direction of the gradient of the support bar 12 that corresponds essentially to inclination, for example, this gradient is about 20 ° with respect to horizontal direction.
The support bar 12 that Fig. 9 also illustrates inclination has Double Circle projection head 15 on its top, comprise that one transmits the base projections 15.1 of vertical support power and the top boss 15.2 of a transmission Horizontal Branch load.These two projections take place to contact with any of end edge of plate 21 in the hope of avoiding by a darker recess 15.3 and spaced apart.Can see, in this case, near the narrowed width of the support bar 12 of inclination its Double Circle projection head 15, like this, described head can be by between the wing plate arranged side by side 16.1,16.2 that forms large span horizontal beam 10.This passes in the central space 19 that enters into box-girder Double Circle projection head 15, and like this, the support region on the support bar 12 of inclination is fully protected.Specifically, can see that the shape of base projections 15.1 forms point with the horizontal plane 22.1 of plate 21 basically and contacts, and the shape of top boss 15.2 is transmitted horizontal supporting power on the zone between vertical plane 22.2 and the described end plate 21.
Each support bar 12 that tilts is preferably made by steel, is rendered as the form of the flat-panel component that extends in a vertical plane.
As finding more clearly among Fig. 5, each support bar 12 that tilts is rendered as a cylindrical leading edge 13 in its bottom, and it is received within the relevant accessory 14 that is fixed on the corresponding column 1.For this purpose, accessory 14 is rendered as a cylindrical reel cage 14.1 with a horizontal axis.This can make support bar 12 hinged around a horizontal axis that is fixed on the vertical support column 1.As an auxiliary situation, accessory 14 presents an external surface 14.1 that tilts, and this face does not contact with the adjacent surface at the place, end of the support bar 12 of inclination, like this, allows described support bar to do within the specific limits to move around its bottom level axis angledly.
Also can consider the support bar 12 that tilts is applied etch-proof material and/or fireproof material, to do best protection.
Fig. 5 also is illustrated in the makeshift device of offering help in the assembling process at its right-hand part.
Can see that temporary support structure 100 is made for a metallic support form.Support 100 comprises that one is fixed on horizontal beam 101 on the column 1 by plate 102, and the direction of the described beam that extends along a vertical plane is subjected to the control of the top assembly 107 of a Y shape.Two vertical links 103 and 104 bottoms freely that have on its support bar 12 that is fixed on exactly determined point 105 and 106 places form an angle of determining of 20 ° for example with this with respect to horizontal direction.Therefore, metallic support 100 is against the support bar 12 of the inclination that has been in place and be placed on the position on the vertical support column 1.In this case, support is enough to fix support bar 12 by the point 105 and 106 on the support bar that tilts, with the gradient of guaranteeing that it is quite correct.Then, the end of large span horizontal beam 10 is in place, so that it is bearing on the Double Circle projection head 15 of support bar 12 of inclination.Therefore, such metallic support 100 makes that the installation of box-girder becomes fast, safety simply and completely.Support is preferably stayed on the position, up to bridge joint till this group metal joist on the box-girder finally fixes.
Therefore, in manufacture process, the metal Connection Element that is installed in box-girder inside is to be made of passive cable 20 and two end plates.Because column bears vertical deformation in a small amount under loading, and because the box-girder in its supporting sagging, so little by little tensioning of cable 20 upwards spurs box-girder at this point.The tension force that acts on the cable 20 has the effect that promotes described cable by the tensioning to cable, till it touches lateral pin 25.Also be the head that is used for admitting support bar 12 by two end plates 21 that steel are made, and the compressive force of transfer function to all fibres that constitutes layer of wood, described layer of wood is formed the stacked structure of gummed.
Also be that the stacked transverse beam 2 of gummed has each module of lateral support bearing structure and successional effect between the assembly is provided.Nature in a variant, replaces using traditional cementing layer stoplog, also can use the box-girder that is similar to large span horizontal beam 10, but this can cause superstructure to become very expensive.
The metal joist 5 of Canam type occupies a space, it changes to the minimum value that its end is located from the maximum value of ridge, like this, provides a gradient for the guiding rainwater flows towards box-girder, as the traditional method in the sector, the decentre ridge formation one of the box-girder gradient slightly own.Then, the head end of each metal joist 5 is fixed on the wing plate of box-girder by means of suitable termination bolt (end bolt).It is the function of employed roofing thickness of strip that spacing between the joist 5 changes.
Therefore, the characteristics of the formation of bearing structure of the present invention are, the notion of design is to utilize the power at the place, end that is fixed on the horizontal beam on the column rather than be arranged on inside, neither be by passive hinge but hinge by all actives, these hinges initiatively are to be compressed to form transmitted load on the beam and the excessive load that applies in horizontal plane, this will be achieved by using metal element.Therefore, not to overcome gravity, and be to use gravity to strengthen energy that this energy expends the pothole distortion that is used for being received in the beam end in the column making usually, continues this process, up to obtaining final balance for horizontal cell.Therefore, the potential energy of gravity is not accessory or the bent beam distortion that is used for making the end, but is used for by all hinged support bar on each end that is arranged in beam, and by integratedly in each box-girder and the cable that is fixed on the top of column realize compression.
The economic performance of this structure especially is size in the horizontal plane and the balance between the size in the vertical plane, is appreciated that under any circumstance, in the complete cost of superstructure, ground reaction force is an important parameters all the time.
For each box-girder is in place, the processing when wing plate is set level just of all Kongzuis then, by glue being applied on the top surface of wing plate, is in place fill plate and two end plates.Then, one second wing plate is in place, and after this, synthetic assembly is uprightly placed, so that each pin of location, all pin relevant with the carrying cable and all bolts that are used for fixing end plate.All these bolts are tightened with torque wrench naturally, to avoid the cracking of undesirable timber.
Can see importantly that the element of the key of this structure is well protected: this is applicable to cable and the bearing area end plate on supporting head part, and the support bar that also is adapted to inclination, and in this, they are coated with anticorrosion and/or fireproof enamelled coating.
In above-mentioned all embodiment, the basal surface of two wing plates arranged side by side of large span horizontal beam or intrados are the plane basically, that is, the cross section of beam is a rectangle.
Yet, in a variant, can consider two intrados that wing plate arranged side by side is curved, to form an arch or " hogback ".
A variant like this is shown in Figure 10 and 11.
The identical label that uses in these figure uses and Fig. 6 and 7.
As seen from the figure, inner arc surface 28 is crooked, and like this, the large span horizontal beam 10 of carrying presents an arch, and this arch is maximum value along beam at the place, centre.Particularly, the maximum height c of arch can consider to be provided by the following relationship formula:
c=0.013×1/2L
Wherein, L is the length of large span horizontal beam 10.Then this is corresponding to 1.3% sagitta.In beam length was 36 meters special case, the maximum height of this arch was 0.234 meter.
Such arch can obtain the better control to the power that is caused by moment of flexure, and helps water to flow down from roofing, because the cause of such gradient that forms, its guiding rainwater flows towards the end of long-span beams.
Above-mentioned formula c=0.013 * 1/2L does not consider to rest the length of the long-span beams on its hinged support corresponding to the optimization of lever arm.
The present invention is not restricted to above-mentioned all embodiment, and on the contrary, any variant of the basic feature that uses the above regulation of means regeneration of equal value is contained in the present invention.
Claims (15)
1. a modular bearing structure comprises by some large span horizontal beams (2,10) the many vertical support columns (1) that interconnect, at least wherein a part of large span horizontal beam (10) is near the support bar (12) that is carried on many inclinations its end (11), the bottom of all support bars (12) is hinged on corresponding all vertical support columns (1), this structure is characterised in that: respectively be bearing in large span horizontal beam (10) on the inclination support bar (12) and be by two and arranged side by side pass through all separators (17,18) the stacked wing plate (16.1 of Hu Lian gummed, 16.2) constitute, described separator forms a central space (19), one cable (20) is freely by this central space (19), the two ends of cable are connected on the corresponding vertical support column (1), beam is by being arranged in wing plate arranged side by side (16.1,16.2) between end plate separately (21) be carried on the support bar (12) of described inclination, and be rigidly fixed on it.
2. modular bearing structure as claimed in claim 1, it is characterized in that, all separators of two wing plates arranged side by side (16.1,16.2) of interconnection large span horizontal beam (10) are made the form of a high fill plate (17) and a low fill plate (18), their each longitudinal extensions along described beam.
3. modular bearing structure as claimed in claim 2 is characterized in that, high fill plate (17) and low fill plate (18) are made by timber, and is connected on adjacent all wing plates (16.1,16.2) by glue.
4. modular bearing structure as claimed in claim 1, it is characterized in that, the cable (20) that is arranged between two wing plates arranged side by side (16.1,16.2) of a large span horizontal beam (10) respectively presents enlarged head portion (26) on its two ends, this enlarged head portion is received within the end assembled box (30) that is formed on the head end of column, or is bearing on the plate on the head end that is fixed on column.
5. modular bearing structure as claimed in claim 1, it is characterized in that, be arranged in the below of cable (20) by all lateral pins (25) of the described wing plate of interconnection between two wing plates arranged side by side (16.1,16.2) of a large span horizontal beam (10), all described lateral pins (25) are positioned on the predetermined installation cambered surface, cable (20) is formed supporting-point when the described cable tensioning.
6. modular bearing structure as claimed in claim 1, it is characterized in that, two wing plates arranged side by side (16.1,16.2) terminate on the end face (27.1,27.2), end face be located immediately at corresponding vertical support column (1) near, described column and safe angle section (34.1,34.2) are equipped, reverse preventing.
7. modular bearing structure as claimed in claim 1, it is characterized in that, end plate (21) is arranged between two wing plates arranged side by side (16.1,16.2), so that be bearing on the support bar (12) of corresponding inclination, end plate is fixed on all described wing plates by all through bolts (24).
8. modular bearing structure as claimed in claim 7, it is characterized in that all end plates (21) are made by steel plate, and by a pair of bearing surface (22.1,22.2) terminate in corresponding support bar (12) near, one of them bearing surface is level, and another is vertical.
9. modular bearing structure as claimed in claim 8, it is characterized in that, each support bar (12) that tilts presents a Double Circle projection head (15) on its top, this projection head comprises that one transmits the base projections (15.1) of a vertical support power and the top boss (15.2) of a transmission one Horizontal Branch load.
10. modular bearing structure as claimed in claim 9, it is characterized in that, each support bar (12) that tilts can present narrower cross section near its Double Circle projection head (15), like this, described projection head can pass through between the wing plate arranged side by side (16.1,16.2), then, support region is positioned in the central space (19) that is formed by described wing plate.
11. as claim 9 or 10 described modular bearing structures, it is characterized in that, each support bar (12) that tilts has a columniform leading edge (13), this leading edge is received within on the relevant accessory (14) that is fixed on the corresponding vertical support column (1), and described accessory presents a cylindrical reel cage (14.1) with horizontal axis.
12. modular bearing structure as claimed in claim 9 is characterized in that, each support bar (12) that tilts is made by steel, and is a flat-panel component form along vertical plane extension.
13. modular bearing structure as claimed in claim 9 is characterized in that, each support bar (12) that tilts is gone up and is applied anticorrosion and/or fire proofing material.
14. modular bearing structure as claimed in claim 1, it is characterized in that two wing plates arranged side by side (16.1,16.2) of a large span horizontal beam (10) present a curved intrados (28), like this, described beam presents an arch, and this arch is arch maximum height c along the centre of beam.
15. modular bearing structure as claimed in claim 14 is characterized in that, arch maximum height c is provided by the following relationship formula:
c=0.013×1/2L
Wherein, L is the length of large span horizontal beam (10).
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
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FR0213860 | 2002-11-06 | ||
FR0213860A FR2846681B1 (en) | 2002-11-06 | 2002-11-06 | MODULAR CARRIER STRUCTURE |
Publications (2)
Publication Number | Publication Date |
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CN1499022A CN1499022A (en) | 2004-05-26 |
CN1231644C true CN1231644C (en) | 2005-12-14 |
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CN 200310114234 Expired - Fee Related CN1231644C (en) | 2002-11-06 | 2003-11-06 | Modular type bearing structure |
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EP (1) | EP1418283A1 (en) |
CN (1) | CN1231644C (en) |
FR (1) | FR2846681B1 (en) |
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Publication number | Priority date | Publication date | Assignee | Title |
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WO2009144387A1 (en) * | 2008-05-28 | 2009-12-03 | Marc Irigoyen | Beam attachment system with cam-shaped receiving angle |
CN103046741A (en) * | 2012-12-13 | 2013-04-17 | 山东鲁帆集团有限公司 | Modularization floor support for buildings |
CN104314316B (en) * | 2014-11-20 | 2016-05-11 | 中建六局土木工程有限公司 | A kind of special-shaped leg post supports construction method of installation |
ES2929382T3 (en) * | 2020-03-06 | 2022-11-28 | Sist Tecnicos De Encofrados Sa | Anchor head for formwork props and formwork prop for the execution of inclined floors |
Family Cites Families (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
BE516495A (en) * | ||||
FR2611781B1 (en) | 1987-02-23 | 1989-06-30 | Irigoyen Marc E | LONG-RANGE BEAM SUPPORT AND LOCKING SYSTEM |
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2002
- 2002-11-06 FR FR0213860A patent/FR2846681B1/en not_active Expired - Fee Related
-
2003
- 2003-10-24 EP EP20030292662 patent/EP1418283A1/en not_active Withdrawn
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Also Published As
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EP1418283A1 (en) | 2004-05-12 |
FR2846681A1 (en) | 2004-05-07 |
CN1499022A (en) | 2004-05-26 |
FR2846681B1 (en) | 2005-06-03 |
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