CN201753475U - Steel grid structure of strut-framed prestress orthogonal space pipe truss - Google Patents
Steel grid structure of strut-framed prestress orthogonal space pipe truss Download PDFInfo
- Publication number
- CN201753475U CN201753475U CN2010201701468U CN201020170146U CN201753475U CN 201753475 U CN201753475 U CN 201753475U CN 2010201701468 U CN2010201701468 U CN 2010201701468U CN 201020170146 U CN201020170146 U CN 201020170146U CN 201753475 U CN201753475 U CN 201753475U
- Authority
- CN
- China
- Prior art keywords
- prestressed
- tube truss
- truss
- space tube
- space
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Fee Related
Links
Images
Landscapes
- Rod-Shaped Construction Members (AREA)
Abstract
The utility model discloses a steel grid structure of a strut-framed prestress orthogonal space pipe truss, which comprises grids (1), wherein the grids (1) are formed by connecting x-directional space pipe trusses (2) arranged in an x direction and y-directional space pipe trusses (3) arranged in a y direction which are orthogonal to each other; x-directional prestress space pipe trusses (4) are arranged at a position about one third of two sides of the grids (1) along the x direction, and y-directional prestress space pipe trusses (5) are arranged along the y direction; and prestress steel ropes (6) and steel rope steering support frames (7) are arranged on the x-directional prestress space pipe trusses (4) and the y-directional prestress space pipe trusses (5). The steel grid structure is in the form of a novel steel grid roof structure and is applied to a super-span (L is larger than or equal to 120m and smaller than or equal to 180m) roof which has a plane dimension approximate to that of a square; moreover, the structure can minimize steel quantity and lower project cost provided that deformation and strength are ensured; therefore the steel grid structure is a safe, rational, advanced, and economic novel structure system.
Description
Technical field
The utility model relates to a kind of prestressing force orthogonal intersection space pipe truss steel grid roof structure, and (the strut-framed prestressing force orthogonal intersection space pipe truss steel lattice structure of 120m ≦ L ≦ 180m) belongs to the technical field of building structure to particularly a kind of super-span.
Background technology
Intend beam type space tube truss structure from last century end by external introduction, its feature is: form of structure is the shuttle-type space tube truss, the steel pipe of two steel pipes and lower edge that promptly winds up is connected to form the space tube truss in del cross section by four diagonal web members, it winds up and is bent downwardly, and lower edge is bent upwards the formation fusiformis; The grid that structure is formed is big, diameter of steel tube big (flat plate framed structure relatively); Rod member intersection does not have the steel ball that node crosses, and adopts time pipe (diameter is less) to cut behind the arc and be responsible for (the big person of diameter) and pass through mutually and be welded to connect; Space tube truss is two supports for " plan beam type " as plane steel roof truss commonly used in the past.The ratio that it is applicable to long limit size and minor face (span) size is greater than 1.5 rectangle plane.Conventional shuttle-type space tube truss is applied to plane meter modest ability limit and minor face than greater than 1.5 rectangle plane, and span is between 45m~65m, and its economy is more remarkable, and after span was greater than 60m, its steel using amount significantly increased.General space tube truss exists in span
LBetween=45m~65m, and long limit, roof system plane
L 1With minor face
L 2The ratio
L 1/
L 2>1.5 folk prescription is to its better economy of rectangle plane that transmits the roofing load.When span (120m≤
L≤ 180m) super-span, and its long and short ratio
L 1/
L 2<1.5 when transmitting the roofing load near square both directions, when adopting existing fusiformis space tube truss structure again, just can not reach the designing requirement of " safety, rationally, advanced person, economy ".Multiple patent of invention technology had appearred in recent years, (ZL200410155399.7) reach " preparation method of large span truss string structure " (ZL200410022224.9) as " a kind of short-brace rod type truss string structure and preparation method thereof ", these two kinds of patented technologies are innovation and development of intending on the beam type space tube truss basis existing, its solves long limit, roof system plane and minor face (span) size greater than 1.5 rectangle plane, and short span can be accomplished economic steel using amount when the 60m left and right sides.Ratio as long and short limit is less than 1.5, promptly when square, simple supported edge holds and the also big (120m≤L≤180m) of span, it also is irrational adopting above-mentioned two patents of invention again, is to prolong the rigidity size according to structure to distribute because load is delivered to supporting construction by structure, if square, the transmission of load is for being divided into two, this moment, the structure both direction was evenly stressed, and structural internal force reduces significantly, caused steel using amount to reduce.In the roof system design except structural strength is stable be guaranteed, its distortion also is an important indicator, the vertical deformation (amount of deflection) that roof system allows is what there are strict requirements, roof system allows distortion and roof structure rigidity associated, proportional as its rigidity of simple truss and load, be inverse ratio with allowing distortion.Roof system as 150m * 150m, its structure height is greater than 15m, if make roof system change bidirectional stress into, and be aided with " modern prestressing method ", its structure height can drop to 9m and 8.5m, its structure height has subtracted 6m~6.5m, and the roof system height building volume that not only accounts for also increases the expense of the maintenance materials of building.Still using 150m * 150m roof system is example, adopts conventional " intending beam type space tube truss structure ", and it accounts for building volume 13.5~14.6 ten thousand steres more, and increases the cladding expense, and is unfavorable to " energy-saving and emission-reduction ".
Summary of the invention
Technical problem to be solved in the utility model is to provide a kind of strut-framed prestressing force orthogonal intersection space pipe truss steel lattice structure and preparation method thereof.This structure can be applicable to planar dimension, and (roof system of 120m≤L≤180m) is a kind of safe, reasonable, advanced, economic new structure system near square super-span.
For solving the problems of the technologies described above the technical solution of the utility model: strut-framed prestressing force orthogonal intersection space pipe truss steel lattice structure.Its formation comprises grid, and to be the y that arranged to space tube truss with along the y direction by the x that arranges along the x direction be connected to form to space tube truss is mutually orthogonal described grid; There is x at about 1/3 place to prestressed space tube truss along the x direction on the both sides of grid, y is arranged to prestressed space tube truss along the y direction, and x is mutually orthogonal to prestressed space tube truss to prestressed space tube truss and y; X is provided with prestressed cable to prestressed space tube truss and y to prestressed space tube truss, is provided with cable wire to prestressed space tube truss and y to the crosspoint of prestressed space tube truss lower edge at x and turns to bracing frame.
In the above-mentioned strut-framed prestressing force orthogonal intersection space pipe truss steel lattice structure, be respectively arranged with two support nodes at every Pin x to the two ends of winding up of prestressed space tube truss, lower edge is provided with a cable wire and turns to bracing frame; It is downward-sloping after prestressed space tube truss winds up the support node steel ball at two ends that the prestressed cable of two x directions passes this x respectively, and turn to the turnover of bracing frame place to be level at cable wire after passing lower edge, and cable wire forms angle.
In the aforesaid strut-framed prestressing force orthogonal intersection space pipe truss steel lattice structure, be respectively arranged with two support nodes at every Pin y to the two ends of winding up of prestressed space tube truss, lower edge is provided with a cable wire and turns to bracing frame; It is downward-sloping after prestressed space tube truss winds up the support node steel ball at two ends that the prestressed cable of two y directions passes this y respectively, and turn to the turnover of bracing frame place at cable wire after passing lower edge, and cable wire forms angle
In the aforesaid strut-framed prestressing force orthogonal intersection space pipe truss steel lattice structure, described prestressed cable passes lower edge and be horizon after cable wire turns to the turnover of bracing frame place.
In the aforesaid strut-framed prestressing force orthogonal intersection space pipe truss steel lattice structure, described x is bent downwardly to two upper chords of prestressed space tube truss to space tube truss and x, a lower chord is horizontal straight-bar, and two upper chords are connected up and down by four diagonal web members with a lower chord.
In the aforesaid strut-framed prestressing force orthogonal intersection space pipe truss steel lattice structure, described y is horizontal straight-bar to space tube truss and y to two upper chords of prestressed space tube truss, lower chord and upper chord are parallel to each other, and two upper chords are connected up and down by four diagonal web members with a lower chord.
The beneficial effects of the utility model: compared with prior art, strut-framed prestressing force orthogonal intersection space pipe truss steel lattice structure of the present utility model is a kind of novel steel grid roof structure form, be applied to planar dimension near the square super-span (roof system of 120m≤l≤180m), it is a kind of safe, reasonable, advanced, economic new structure system, other super-span steel lattice of it and same level size and load relatively, under the condition that guarantees distortion and intensity, can accomplish that steel using amount is minimum, reduce the effect of construction costs.It is that (120m≤L≤180m) and planar dimension adopt the conventional technical barrier that beam type space tube truss structure runs into of intending when square to super-span that the utility model efficiently solves at roof system.
Description of drawings
Fig. 1 is a plane structure arrangement diagram of the present utility model;
Fig. 2 is the side elevational view of x of the present utility model to space tube truss;
Fig. 3 is the A-A sectional view of Fig. 2;
Fig. 4 is the side elevational view of y of the present utility model to space tube truss;
Fig. 5 is the B-B sectional view of Fig. 4;
Fig. 6 is the side elevational view of x of the present utility model to prestressed space tube truss;
Fig. 7 is the C-C plan view of Fig. 6;
Fig. 8 is the side elevational view of y of the present utility model to prestressed space tube truss;
Fig. 9 is that appearance profile of the present utility model is as cylinder cutting A shape shaft side figure;
Figure 10 is that the axle of Fig. 9 middle section A is surveyed shape figure;
Figure 11 is x of the present utility model to prestressed space tube truss and the y support node constructional drawing to prestressed space tube truss;
Figure 12 is that cable wire turns to the spatial axes of bracing frame to survey sketch;
Figure 13 is x turns to bracing frame to prestressed space tube truss lower edge cable wire to prestressed space tube truss and y a constructional drawing;
Figure 14 is the joint structure figure that winds up of the present utility model;
Figure 15 is a lower-chord panel point constructional drawing of the present utility model.
Below in conjunction with the drawings and specific embodiments the utility model is further described.
The specific embodiment
Embodiment 1.As shown in Figure 1, 2, grid 1 be by some x that arrange along the x direction to space tube truss 2 and some y that arranges along the y direction to space tube truss 3 mutually orthogonal being connected to form; There are two Pin x at about 1/3 place to prestressed space tube truss 4 along the x direction on the both sides of grid 1, two Pin y is arranged to prestressed space tube truss 5 along the y direction, and this two Pin x is mutually orthogonal to prestressed space tube truss 5 to prestressed space tube truss 4 and two Pin y; X is provided with prestressed cable 6 to prestressed space tube truss 4 and y to prestressed space tube truss 5, is provided with cable wire to prestressed space tube truss 4 and y to the crosspoint of prestressed space tube truss 5 lower edges at x and turns to bracing frame 7.Be respectively arranged with two support nodes 8 at every Pin x to the two ends of winding up of prestressed space tube truss 4, promptly every Pin x has two support nodes to prestressed space tube truss 4 one ends, and lower edge is provided with a cable wire and turns to bracing frame 7; It is downward-sloping after prestressed space tube truss 4 winds up support node 8 steel balls at two ends that the prestressed cable 6 of two x directions passes this x respectively, and be horizon after passing lower edge after cable wire turns to the turnover of bracing frame 7 places.Be respectively arranged with two support nodes 8 at every Pin y to the two ends of winding up of prestressed space tube truss 5, promptly every Pin y has two support nodes to prestressed space tube truss 5 one ends, and lower edge is provided with a cable wire and turns to bracing frame 7; It is downward-sloping after prestressed space tube truss 5 winds up support node 8 steel balls at two ends that the prestressed cable 6 of two y directions passes this y respectively, and be horizon after passing lower edge after cable wire turns to the turnover of bracing frame 7 places.X is bent downwardly to two upper chords 9 of prestressed space tube truss 4 to space tube truss 2 and x, and a lower chord 10 is horizontal straight-bar, and two upper chords 9 are connected up and down by four diagonal web members 11 with a lower chord 10.Y is horizontal straight-bar to space tube truss 3 and y to two upper chords 9 of prestressed space tube truss 5, and lower chord 10 is parallel to each other with upper chord 9, and two upper chords 9 are connected up and down by four diagonal web members 11 with a lower chord 10.
With planar dimension is that foursquare 150m * 150m super-span roof system is an example, periphery is provided with steel concrete heavy in section post, capital absolute altitude 16m, and the Zhou Bianzhu net is the alternate layout of 5m, 10m, the grid periphery 5m * 10m that finds time, middle part 10m * the 10m that finds time, the grid horizontal projection is of a size of 5m * 5m.The two width 5m that wind up, support conditions is " deck type ", be that every Pin x has two support nodes 8 to space tube truss 2, y to space tube truss 3 one ends, to x, the y direction applies prestressed x has two Pin to prestressed space tube truss 4 and y respectively to prestressed space tube truss 5, be positioned at 1/3 place, both sides of grid 1, promptly from peripheral 37.5m place.X forms the quadratures type of finding time to space tube truss 2, y to space tube truss 3, along the periphery net area 5m * 10m that finds time, at the net area 10m * 10m that finds time of network central authorities, form orthogonal intersection space pipe truss and just putting the network of finding time, the total area coverage of structure is 150m * 150m=22500 m
2, the part of the finding time gross area 12250 m
2Account for the gross area 54%, load-carrying construction rod member quantity is descended significantly, though analysis makes steel using amount descend significantly from the surface, but from the rigidity of structure and rod member internal force analysis, as not taking related technical measures to improve the rigidity of structure and improving the structural internal force analysis, its steel using amount descends and does not meet the structural mechanics principle, the utility model adopts strength ratio common iron big (7~8) high-strength prestressed cable wire doubly, thereby when improving the rigidity of structure, structural internal force is reduced, reach the purpose that reduces the structural steel amount.Fig. 6 be x to the prestressed space tube truss side elevational view, x is all identical to each Pin of space tube truss 2 composition forms, wherein two Pin x are provided with prestressing apparatus to space tube truss 2, other eight Pin do not have.Fig. 8 be y to prestressed space tube truss 5 side elevational view, wherein two Pin are provided with in advance and should install, other eight Pin do not have.Y has following several respects to the compositing characteristic of space tube truss: one, and the upper and lower string of structure is parallel to each other, and is the straight line rod member; Its two, the overall height of the every Pin of structure is successively decreased by the mediad two ends, its two positions of winding up are one high and one low, tilted to two support edges by mediad x respectively, y is determined by x director space pipe truss in fact to the upper and lower chord joint point coordinates of space tube truss.The both direction space tube truss is found time behind the quadrature, and its appearance profile size forms uniform section cylinder, after the chord length cutting, again along post vertical two ends cutting, as shown in Figure 9, the profile of total is " cylindrical ", as shown in figure 10, form by " cylinder template ", from mechanics property analysis, under the effect of simple supported edge evenly distributed load, with relatively more dull and more stereotyped than conventional, it is a variable cross-section, and its cross section of plate distortion larger part is also big.Also maximum to central authorities' its moment of flexure of distortion general goal as x, so its cross section maximum, y is to also being central authorities' distortion and moment of flexure maximum, its cross section maximum.Because big its bending rigidity in cross section is also big, the latter when the volume of " solid flat board " equates with the volume of " the solid flat board of cylindrical " is because its rational cross section composition, the former height of its ultimate bearing force rate more can be given full play to the carrying effect of structure, reaches the effect of saving structural steel.Concrete implementing method of the present utility model is in Fig. 1 grid plan figure x and y direction, arrange respectively two Pin x to prestressed space tube truss 4 and y to prestressed space tube truss 5(such as Fig. 6, shown in Figure 8), their two ends have two deck type support nodes 8 respectively.The hollow steel ball arrangement prestress cable wire 6 of support node 8 also slopes down to cable wire and turns to bracing frame 7, then forms angle a between oblique cord and the horizontal rope
IxAnd a
IyIf after setting up prestressing force, the pretension of cable wire is respectively p
Ax, p
AyThen cable wire turns to bracing frame 7 under pre-stretching force effect, must to this locate the grid lower-chord panel point produce from bottom to top active force and, this active force is just opposite with the load action force direction, has the effect that improves the rigidity of structure and improve structural internal force.X, the y direction is provided with two Pin prestressed space tube truss of quadrature respectively, its cable wire turns to bracing frame 7 as shown in figure 12, every Pin x turns to bracing frame 7 liang mid-side node turnovers to two bundle prestressed cables 6 of prestressed space tube truss 5 at cable wire to prestressed space tube truss 4 and y, pipe truss lower-chord panel point ball 12 respectively upwards active force be, whole network lower-chord panel point place is symmetrical arranged 4 cable wires altogether and turns to bracing frame 7, therefore whole roof system network produces upwards active force under the prestressing force effect, prestressed cable 6 turns to fixed pulley 14 backs of node steel ball 13 bottoms, bracing frame 7 bottom to produce upwards by cable wire, and active force is, it is just in time opposite with the active force from top to bottom that the steel lattice structure is born, improve the active force that the rigidity of structure reduces malformation and each rod member internal force of structure thereby get, reach the purpose of saving the structural steel amount.The utility model is that (planar dimension of 120m≤L≤180m) is near square (1=L at super-span
1/ L
2<1.5) adopt partial prestressing in the steel lattice structure after, accomplish the form of structure of " safety, rationally, advanced, economy ".
X of the present utility model is different with conventional space tube truss form to space tube truss 3 with y to space tube truss 2, and they both orthogonal, forms the quadrature space tube truss network of finding time, and at its about 1/3 position of four limits length of side prestressed cable 6 is set respectively again.After structure is set up prestressing force, prestressed cable 6 forms angle at its turning point place, the pretension of cable wire is taken advantage of the sine of angle, then prestressed cable 6 turning point places lower-chord panel points produce four from bottom to top effect and with load action opposite effect power, thereby form structure self-balancing structural system, i.e. " the one-tenth kenel " of structure.When structure is born the various load action of roof system, i.e. structure " load attitude ", the internal force of each node distortion of the structure that its produces and rod member is general all opposite with internal force with each node distortion of " becoming kenel " structure, formation structure normally " user mode " after both additions.It has the structural entity of raising rigidity, reduces the effect of each rod member internal force of structure, the structural steel amount is descended and assurance structural entity rigidity requirement thereby reach, thereby forms a kind of novel pre-stressed space steel lattice structural system by the space tube truss quadrature.The utility model is different from conventional fusiformis space tube truss, its x along the setting of x direction is bent downwardly to 2 two upper chords 9 of space tube truss, the wind up line of pipe of two upper chords 9 is an oblique line, its curvature also is the drainage grade (i=0.05 or i=0.07 etc.) of roof system, its lower chord 10 is horizontal straight-bar, two upper chords 9 are connected up and down by four diagonal web members 11 with a lower chord 10, form space tube truss; Y is parallel to each other to space tube truss 3 its two upper chords 9 and a lower chord 10, be horizontal straight-bar, two upper chords 9 are connected up and down by four diagonal web members 11 with a lower chord 10, its physical dimension (winding up and the lower-chord panel point coordinate) is determined to space tube truss 2 each node coordinate by x, forms along y to the space tube truss that is successively decreased one by one to gradient both sides by the highest space tube truss of centre.
Embodiment of the present utility model is not limited to the foregoing description, all belongs within the protection domain of the present utility model in the various variations of making under the prerequisite that does not break away from the utility model aim.
Claims (6)
1. strut-framed prestressing force orthogonal intersection space pipe truss steel lattice structure, comprise grid (1), it is characterized in that: described grid (1) is that the y that arranged to space tube truss (2) with along the y direction by the x that arranges along the x direction is to mutually orthogonal being connected to form of space tube truss (3); X is arranged to prestressed space tube truss (4) at about 1/3 place, the both sides of grid (1) along the x direction, y is arranged to prestressed space tube truss (5) along the y direction, x is mutually orthogonal to prestressed space tube truss (5) to prestressed space tube truss (4) and y; X is provided with prestressed cable (6) to prestressed space tube truss (4) and y to prestressed space tube truss (5), is provided with cable wire to prestressed space tube truss (4) and y to the crosspoint of prestressed space tube truss (5) lower edge at x and turns to bracing frame (7).
2. strut-framed prestressing force orthogonal intersection space pipe truss steel lattice structure according to claim 1, it is characterized in that: be respectively arranged with two support nodes (8) at every Pin x to the two ends of winding up of prestressed space tube truss (4), lower edge is provided with a cable wire and turns to bracing frame (7); It is downward-sloping after prestressed space tube truss (4) winds up support node (8) steel ball at two ends that the prestressed cable of two x directions (6) passes this x respectively, and turn to bracing frame (7) to locate turnover at cable wire after passing lower edge.
3. strut-framed prestressing force orthogonal intersection space pipe truss steel lattice structure according to claim 1, it is characterized in that: be respectively arranged with two support nodes (8) at every Pin y to the two ends of winding up of prestressed space tube truss (5), lower edge is provided with a cable wire and turns to bracing frame (7); It is downward-sloping after prestressed space tube truss (5) winds up support node (8) steel ball at two ends that the prestressed cable of two y directions (6) passes this y respectively, and turn to bracing frame (7) to locate turnover at cable wire after passing lower edge.
4. according to claim 2 or 3 described strut-framed prestressing force orthogonal intersection space pipe truss steel lattice structures, it is characterized in that: described prestressed cable (6) passes lower edge and turns to bracing frame (7) to locate to be horizon after the turnover at cable wire.
5. strut-framed prestressing force orthogonal intersection space pipe truss steel lattice structure according to claim 1, it is characterized in that: described x is bent downwardly to two upper chords (9) of prestressed space tube truss (4) to space tube truss (2) and x, a lower chord (10) is horizontal straight-bar, and two upper chords (9) are connected up and down by four diagonal web members (11) with a lower chord (10).
6. strut-framed prestressing force orthogonal intersection space pipe truss steel lattice structure according to claim 1, it is characterized in that: described y is horizontal straight-bar to space tube truss (3) and y to two upper chords (9) of prestressed space tube truss (5), lower chord (10) is parallel to each other with upper chord (9), and two upper chords (9) are connected up and down by four diagonal web members (11) with a lower chord (10).
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN2010201701468U CN201753475U (en) | 2010-04-26 | 2010-04-26 | Steel grid structure of strut-framed prestress orthogonal space pipe truss |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN2010201701468U CN201753475U (en) | 2010-04-26 | 2010-04-26 | Steel grid structure of strut-framed prestress orthogonal space pipe truss |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN201753475U true CN201753475U (en) | 2011-03-02 |
Family
ID=43621206
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN2010201701468U Expired - Fee Related CN201753475U (en) | 2010-04-26 | 2010-04-26 | Steel grid structure of strut-framed prestress orthogonal space pipe truss |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN201753475U (en) |
Cited By (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN102235055A (en) * | 2010-04-26 | 2011-11-09 | 湖南大学 | Stayed prestressed orthogonal space tube truss steel grid structure and manufacturing method thereof |
| CN102720293A (en) * | 2012-06-20 | 2012-10-10 | 山西省第三建筑工程公司 | Inverted-triangular steel tube intersected spatial truss and assembly method thereof |
| WO2018082368A1 (en) * | 2016-11-03 | 2018-05-11 | 周鼎铭 | Structural member bar pipe of truss support body |
-
2010
- 2010-04-26 CN CN2010201701468U patent/CN201753475U/en not_active Expired - Fee Related
Cited By (4)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN102235055A (en) * | 2010-04-26 | 2011-11-09 | 湖南大学 | Stayed prestressed orthogonal space tube truss steel grid structure and manufacturing method thereof |
| CN102235055B (en) * | 2010-04-26 | 2013-07-03 | 湖南大学 | Stayed prestressed orthogonal space tube truss steel grid structure and manufacturing method thereof |
| CN102720293A (en) * | 2012-06-20 | 2012-10-10 | 山西省第三建筑工程公司 | Inverted-triangular steel tube intersected spatial truss and assembly method thereof |
| WO2018082368A1 (en) * | 2016-11-03 | 2018-05-11 | 周鼎铭 | Structural member bar pipe of truss support body |
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| CN102235055B (en) | Stayed prestressed orthogonal space tube truss steel grid structure and manufacturing method thereof | |
| CN203334664U (en) | Ultra-long cantilever truss structure high formwork supporting system | |
| CN103114671A (en) | Chord tensioning truss structure capable of preventing collapsing caused by cable breakage | |
| CN201753475U (en) | Steel grid structure of strut-framed prestress orthogonal space pipe truss | |
| CN102235030B (en) | Extra-large-span cross-section-variable pre-stressed normally placed evacuating quadrangular pyramid space grid and manufacturing method thereof | |
| CN202831751U (en) | Two-way dense rib type storage pocket barricade | |
| CN201786045U (en) | House structure with combined steel beam and pretensioning method prestress laminated beam | |
| CN107119582B (en) | T-shaped rigid frame bridge back tower cable-stayed reinforcing structure and construction method thereof | |
| CN2923870Y (en) | Large-span large-pillar-distance quasi-rib type building-cover type prestress steel-grid roofing | |
| CN100422468C (en) | Large-span large-column distance quasi-ribbed floor type prestressed steel grid roof structure | |
| CN202644719U (en) | Multilevel multi-curved-surface single-layer welded ball steel structure net rack | |
| CN201722773U (en) | Super-long span variable cross-section prestress normally-placed evacuating quadrangular pyramid net rack | |
| CN202644384U (en) | Aluminum alloy pipe restricting type steel concrete pier column | |
| CN206034264U (en) | Novel steel construction shelter bridge foundation structure | |
| CN206015700U (en) | A kind of raft foundation steelframe support | |
| CN206144237U (en) | Prefabricated large-scale steel structure rectangular bin and rectangular group bin | |
| CN204326556U (en) | A kind of large-span truss for both wired upper bridge constructions is safe guarding shed | |
| CN104805902B (en) | It is a kind of to improve the structure of hangar stress performance | |
| CN210917010U (en) | Tube-in-tube bridge tower of space mixed cable net suspension bridge with parabolic arched tower cap | |
| CN109469104B (en) | Basement and building thereof | |
| CN206034637U (en) | Steel space frame ball joint point is reserved and is overhauld packway steel bearing | |
| CN203452393U (en) | Rhombic truss supporting jig frame | |
| CN202164731U (en) | Beam string of plane heavy roof | |
| CN201443161U (en) | High-span roofing space pipe truss structure for heavy industry | |
| CN204590247U (en) | A kind of assembled integral orthogonal spatial mixed type steel lattice box structure |
Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| C14 | Grant of patent or utility model | ||
| GR01 | Patent grant | ||
| C17 | Cessation of patent right | ||
| CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20110302 Termination date: 20130426 |