CN106284810A - Planar radial folding house roof film combinative structure - Google Patents
Planar radial folding house roof film combinative structure Download PDFInfo
- Publication number
- CN106284810A CN106284810A CN201610832199.3A CN201610832199A CN106284810A CN 106284810 A CN106284810 A CN 106284810A CN 201610832199 A CN201610832199 A CN 201610832199A CN 106284810 A CN106284810 A CN 106284810A
- Authority
- CN
- China
- Prior art keywords
- scissor mechanism
- chain scissor
- tetragon
- radially
- hoop
- 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.)
- Granted
Links
Classifications
-
- E—FIXED CONSTRUCTIONS
- E04—BUILDING
- E04B—GENERAL BUILDING CONSTRUCTIONS; WALLS, e.g. PARTITIONS; ROOFS; FLOORS; CEILINGS; INSULATION OR OTHER PROTECTION OF BUILDINGS
- E04B7/00—Roofs; Roof construction with regard to insulation
- E04B7/16—Roof structures with movable roof parts
Abstract
The invention discloses a kind of planar radial folding house roof film combinative structure, this combinative structure is made up of lower flat radially retractable roof structure and upper membrane structure, and planar radial folding house roof is made up of plural hoop chain scissor mechanism and plural radial direction bilayer chain scissor mechanism;Planar radial retractable Roof Structures is divided into continuous print Bu Mo district each other on the projection surface, and Bu Mo district includes interior tetragon, the first middle tetragon, the second middle tetragon and outer tetragon;Membrane structure is made up of the first film unit, the second film unit and tertiary membrane unit.Planar radial folding house roof film combinative structure of the present invention is flexible freely, and expansion and contraction is big;The folding direction of hoop scissors hinge unit is vertical plane, makes planar radial folding house roof film combinative structure have bigger vertical rigidity, and structure is reasonable, design and construct simple, is particularly suitable for the building of medium and small span.
Description
Technical field
The present invention relates to a kind of planar radial folding house roof-film combinative structure, especially one and there is the most double-deck chain
Planar radial folding house roof-film the combinative structure of scissor mechanism and hoop chain scissor mechanism.
Background technology
Retractable Roof Structures is a kind of new structure grown up nearly over half a century, it is possible to according to the change of air and
The use demand of building partly or entirely opens and closes roof system.Being mainly characterized by of retractable Roof Structures have two kinds stable
Configuration: fully closed condition and fully deployed duty.Roof system serviceability limit stage needs motion and possesses multiple difference
Stress, compared with conventional building construction, designs and constructs more complicated.
The feature of retractable Roof Structures and membrane structure mixed by planar radial folding house roof-film combinative structure.Planar radial
Retractable Roof Structures uses membrane material to have many advantages:
1) from heavy and light.The weight of film material only has 1.3-1.5kN/m2, the reduction of roof structure weight, the support of bottom can be made to tie
The cross dimensions on structure and basis reduces the most accordingly, is substantially reduced construction costs.
2) reduce energy resource consumption, save expense.Film material light transmittance is generally dependent on material and coating, and range is from almost
100% transparent to the opaquest.The light transmittance of common buildings film material about 15%, even if so complete grid structure can be opened up
Also can make full use of nature light during expansion, daytime, use can reduce artificial lighting.
3) speed of application is fast.
Summary of the invention
Goal of the invention: in order to build the annular roof system being easy to folding, and require that this folding house roof can not only meet building
Various functions requirement to roof system folding, also has the advantages such as design and easy construction, it is possible to preferably meet medium and small span and build
Build the requirement to roof system folding function.
For solving above-mentioned technical problem, the technical solution used in the present invention is:
A kind of planar radial folding house roof-film combinative structure, it is characterised in that this combinative structure is by lower flat radially folding room
Lid structure and upper membrane structure composition, wherein lower flat radially retractable roof structure is by plural hoop chain scissors machine
Structure and plural radial direction bilayer chain scissor mechanism composition, described hoop chain scissor mechanism arranged concentric, described radial direction
The radial arrangement of the annulus that double-deck chain scissor mechanism is formed along described hoop chain scissor mechanism;Described hoop chain scissors machine
Structure is connected to annular end to end by multiple hoop symmetry scissors hinge unit, and the folding direction of described hoop symmetry scissors hinge unit is vertical
Described annulus place plane, each hoop symmetry scissors hinge unit by the equal first connecting rod of two length in first connecting rod
Portion is hinged to be formed, hinged in the end of first connecting rod between the first connecting rod of adjacent two hoop symmetry scissors hinge unit;Described footpath
It is made up of the two-layer of consistency from top to bottom horizontal chain scissor mechanism to double-deck chain scissor mechanism, described radially descends two-layer chain to cut
Formula mechanism is connected to linear by multiple radial symmetric scissors hinge unit end to end, the Foldable square of described radial symmetric scissors hinge unit
To in horizontal plane, each radial symmetric scissors hinge unit is cut with scissors at the middle part of second connecting rod by the second connecting rod that two length is equal
Connect and form, hinged in the end of second connecting rod between the second connecting rod of adjacent two radial symmetric scissors hinge unit;Described radially
Lower two-layer chain scissor mechanism respectively with described hoop chain scissor mechanism by described radial symmetric scissors hinge unit second
Interlinking lever end is connected with hinged realization the in first connecting rod end of described hoop symmetry scissors hinge unit, and the most double-deck chain is cut
The length that outmost turns hoop chain scissor mechanism is certain is stretched out by formula mechanism, and is fixed on only to have and horizontally rotates the hinged of degree of freedom
Seat.
Described radially retractable roof structure is divided into continuous print Bu Mo district each other, described Bu Mo district to include interior four on the projection surface
Limit shape, the first middle tetragon, the second middle tetragon and outer tetragon;
Described interior tetragon radially chain scissor mechanism is symmetrical, and four summits of described interior tetragon include adjacent three footpath
To the first summit, the second summit and the 3rd summit of the hoop hinged formation of chain scissor mechanism of chain scissor mechanism and inner side,
And it is positioned at the radial direction chain scissor mechanism of the second summit and radially adjoining and the midpoint of the pin joint of hoop chain scissor mechanism
The 4th summit constituted;
Described outer tetragon radially chain scissor mechanism is symmetrical, and four summits of described outer tetragon include adjacent three footpath
To the 5th summit, the 6th summit and the 7th summit of the hoop hinged formation of chain scissor mechanism in chain scissor mechanism and outside,
And it is positioned at the radial direction chain scissor mechanism of the 6th summit and radially adjoining and the midpoint of the pin joint of hoop chain scissor mechanism
The 8th summit constituted;
Described first middle tetragon radially chain scissor mechanism is symmetrical, and four summits of described middle tetragon are positioned at adjacent
Three radially on chain scissor mechanism, wherein, two summits are positioned at both sides in adjacent three radially chain scissor mechanism
Radially on chain scissor mechanism and be positioned on same hoop chain scissor mechanism, another two summit is positioned at adjacent three radially chain
On in the middle of shape scissor mechanism one radially chain scissor mechanism and respectively with the hoop chain scissors at two other place, summit
The spacing of mechanism is the half of the spacing being separated by hoop chain scissor mechanism;
Described second middle tetragon radially chain scissor mechanism is symmetrical, and four summits of described second middle tetragon are positioned at
On adjacent three radially chain scissor mechanism, wherein, two summits are positioned in adjacent three radially chain scissor mechanism
Between radially chain scissor mechanism is with on the pin joint of adjacent two hoop chain scissor mechanism, two other summit lays respectively at phase
In adjacent three radially chain scissor mechanism on the radial direction chain scissor mechanism of both sides and be positioned at adjacent two hoop chain scissors
Midpoint between mechanism;
Interior tetragon S, the first middle tetragon is N number of, and the second middle tetragon is M, outer tetragon P, S=X/2,
N=(Y-2) X/2, M=(Y-1) X/2, P=X/2, X are the number of radially chain scissor mechanism, and Y is hoop chain scissor mechanism
Number;
Described membrane structure is made up of the first film unit, the second film unit and tertiary membrane unit, described first film unit, the second film
Unit and tertiary membrane unit are formed by the film material of montant and overlying;Described interior tetragon connects described first film unit,
Described first middle tetragon and the second middle tetragon connect described second film unit, described outer tetragon connects
Described tertiary membrane unit.The montant lower end of described first film unit is both connected to constitute on the second summit of described interior tetragon,
The montant lower end of described second film unit is both connected to constitute being positioned at of described first middle tetragon and the second middle tetragon
Radially on chain scissor mechanism on the midpoint on two summits;The montant lower end of described tertiary membrane unit be both connected to constitute described outside
On 6th summit of tetragon;The other end of described montant is fixed with described film material, the surrounding of film material and described interior tetragon, the
Remaining summit of one middle tetragon, the second middle tetragon and outer tetragon is fixed, and the film material between adjacent Bu Mo district exists
Boundary is connected smoothly;
Described radial direction bilayer chain scissor mechanism is evenly arranged on described annulus, and described hoop chain scissor mechanism is at annulus
Radially equidistant placement.
The number of described hoop chain scissor mechanism is 3~10, and the number of described radial direction bilayer chain scissor mechanism is 5
~40.
Described first connecting rod is straight-bar.
Described first connecting rod is plane straight-bar.
Described second connecting rod is straight-bar.
Described second connecting rod is plane straight-bar.
Described montant is straight-bar.
Beneficial effect: the present invention is realized planar radial retractable Roof Structures by footpath hoop chain scissor mechanism synchronization telescope
Folding, so that planar radial folding house roof is flexible freely, expansion and contraction is big, and it constructs rationally, designs and construct simple,
The folding direction of the scissors hinge unit of hoop scissor mechanism is vertical plane, and the most double-deck scissor mechanism is by upper and lower two-layer scissor mechanism
Composition, so that planar radial retractable Roof Structures has bigger vertical rigidity, is particularly suitable for the building of medium and small span.
Accompanying drawing explanation
Below in conjunction with the accompanying drawings and embodiment the present invention is described in more detail:
Fig. 1 is planar radial of the present invention folding house roof-film combinative structure schematic diagram.
Fig. 2 is the most double-deck chain scissor mechanism schematic diagram of planar radial retractable Roof Structures.
Fig. 3 is radial direction chain scissor mechanism and the hinged schematic diagram of hoop chain scissor mechanism.
Fig. 4 is that the composition symmetrical scissors radially with hoop chain scissor mechanism cut with scissors cell schematics.
Fig. 5 is that 3 kinds of film units of component film structure arrange schematic diagram.
Fig. 6 is the first film unit schematic diagram of component film structure.
Fig. 7 is the second film unit schematic diagram of component film structure.
Fig. 8 is the tertiary membrane cell schematics of component film structure.
Detailed description of the invention
Referring to Figure of description, the present invention is made more detailed description:
As it is shown in figure 1, a kind of planar radial retractable Roof Structures 1.Planar radial retractable Roof Structures 1 is by 3 hoop chains
Scissor mechanism 2 and 16 chain scissor mechanism 4 the most double-deck form.Wherein, hoop chain scissor mechanism 2 is by 48 hoop symmetries
Scissors hinge unit 3 forms, and the radially even interval of hoop chain scissor mechanism 2 is arranged;The most double-deck chain scissor mechanism 4 is by upper
The two-layer chain scissor mechanism composition of lower alignment, wherein every layer of chain scissor mechanism is by 14 radial symmetric scissors hinge unit 5 groups
Becoming, the most double-deck chain scissor mechanism 4 circumferentially uniform intervals is arranged.
As in figure 2 it is shown, the most double-deck chain scissor mechanism is made up of the two-layer chain scissor mechanism of consistency from top to bottom, and on
Lower two-layer chain scissor mechanism keeps synchronization telescope in rack moving process;Described upper and lower two-layer chain scissor mechanism is by 14
Individual radial symmetric scissors hinge unit is formed by connecting, hinged in the end of second connecting rod between adjacent two scissors hinge unit.
As it is shown on figure 3, the connection node of footpath hoop chain scissor mechanism constitutes as follows: hoop chain mechanism 2 is respectively and footpath
To the chain scissor mechanism of two-layer up and down of double-deck chain mechanism 4 by hoop symmetry scissors hinge unit first connecting rod and radial symmetric
Scissors hinge unit second connecting rod end hinged joint 6 connects.Thus, by the effect of this hinged joint, it is achieved planar radial folding room
Radial direction two-layer chain shape scissor mechanism 4 and the synchronization telescope of hoop chain scissor mechanism 2 in lid structure moving process.
Composition hoop and the symmetrical scissors hinge unit of radial direction chain scissor mechanism as shown in Figure 4 are that application is the widest at present
General parallel scissors hinge unit.The length of connecting rod of scissors hinge unit is equal, and is connected by a pin-connected joints in the middle of connecting rod,
Every pair of connecting rod is only capable of around vertically relatively rotating the axis of connecting rod place plane with this, and other degree of freedom receives limit completely
System;Connection between scissors hinge unit is by the hinged realization of interlinking lever end hinged joint simultaneously.This unit is its end in motor process
The line keeping parallelism of portion's hinged joint.
As it is shown in figure 5,3 kinds of film units are covered with whole roof system when planar radial folding house roof-film combinative structure is fully deployed
Structure.Wherein 8 the first membrane structure unit 7 are arranged in interior tetragon Bu Mo district, are circumferentially evenly arranged;16 the second membrane structures
Unit 8 is arranged in the Bu Mo district of the first middle tetragon and the second middle tetragon composition;8 tertiary membrane construction unit 9 cloth
Put tetragon Bu Mo district outside, be circumferentially evenly arranged.
As shown in Figure 6, the first membrane structure unit 7 of innermost circle is arranged on interior tetragon AFGH, and wherein summit F, H, G exists
At the pin joint of adjacent innermost circle hoop chain scissor mechanism 2 and radially chain scissor mechanism 4;Summit A is in radial symmetry axis
On the radial direction chain scissor mechanism 4 at place, and it is in and the middle of adjacent hoop chain scissor mechanism.First montant is arranged
At summit H point, film material 11 upper end is fixed on the first montant upper end, bottom and summit F, G, H concrete mutually.
As it is shown in fig. 7, the second membrane structure unit 8 is arranged in the first middle tetragon and the second middle tetragon Bu Mo district
In.Four summit ABCD of described first middle tetragon are positioned on adjacent three radially chain scissor mechanism, wherein, and summit
CD is positioned in adjacent three radially chain scissor mechanism on the radial direction chain scissor mechanism of both sides and is positioned at same hoop chain
On scissor mechanism, another two summit AB is positioned at the radially chain scissors machine of in the middle of adjacent three radially chain scissor mechanism
On structure and respectively with the spacing of the hoop chain scissor mechanism at CD place, summit for being separated by the spacing of hoop chain scissor mechanism
Half;Four summit ACEF of described second middle tetragon are positioned on adjacent three radially chain scissor mechanism, wherein,
Summit CF is positioned at the intermediate radial chain scissor mechanism of adjacent three radially chain scissor mechanism and adjacent two hoop chains
On the pin joint of scissor mechanism, two other summit AE lays respectively at the footpath of both sides in adjacent three radially chain scissor mechanism
Midpoint on chain scissor mechanism and between adjacent two hoop chain scissor mechanism;Second montant lower end is arranged in
The midpoint of the intermediate radial scissors hinge body of the first middle tetragon and the second middle tetragon, on the film material 11 of top attachment
Portion is fixed on montant upper end, the summit concrete mutually that bottom projects with tetragon.
As shown in Figure 8, the tertiary membrane construction unit 9 of outmost turns is arranged on outer tetragon BIJK, and summit I, J, K are adjacent
Outmost turns hoop chain scissor mechanism 2 and radially chain scissor mechanism 4 pin joint at;Summit B is at radial symmetry axis place
Radial direction chain scissor mechanism 4 on, and be in and the middle of adjacent hoop chain scissor mechanism.3rd montant is arranged on top
At some K point, film material 11 upper end is fixed on the 3rd montant upper end, bottom and summit I, J, K concrete mutually.
Claims (8)
1. planar radial folding house roof-film combinative structure, it is characterised in that this combinative structure is by lower flat radially folding
Roof structure and upper membrane structure composition composition, wherein lower flat radially retractable roof structure is by plural hoop chain
Scissor mechanism and plural radial direction bilayer chain scissor mechanism composition, described hoop chain scissor mechanism arranged concentric, institute
State the radial arrangement of the annulus that the most double-deck chain scissor mechanism is formed along described hoop chain scissor mechanism;Described hoop chain
Scissor mechanism is connected to annular, the Foldable square of described hoop symmetry scissors hinge unit end to end by multiple hoop symmetry scissors hinge unit
To vertical described annulus place plane, each hoop symmetry scissors hinge unit is by the equal first connecting rod of two length first even
The middle part of bar is hinged to be formed, hinged in the end of first connecting rod between the first connecting rod of adjacent two hoop symmetry scissors hinge unit;
Described radial direction bilayer chain scissor mechanism is made up of the two-layer of consistency from top to bottom horizontal chain scissor mechanism, described radially descends two-layer
Chain scissor mechanism is connected to linear by multiple radial symmetric scissors hinge unit end to end, described radial symmetric scissors hinge unit
Folding direction in horizontal plane, each radial symmetric scissors hinge unit by the equal second connecting rod of two length at second connecting rod
Middle part is hinged to be formed, hinged in the end of second connecting rod between the second connecting rod of adjacent two radial symmetric scissors hinge unit;Described
Two-layer chain scissor mechanism is radially descended to cut with scissors unit with described hoop chain scissor mechanism by described radial symmetric scissors respectively
Hinged realization the in first connecting rod end of second connecting rod end and described hoop symmetry scissors hinge unit is connected, and radially bilayer
Chain scissor mechanism stretches out the length that outmost turns hoop chain scissor mechanism is certain, and is fixed on only to have and horizontally rotates degree of freedom
Hinged-support;
Described planar radial retractable Roof Structures is divided into continuous print Bu Mo district each other, described Bu Mo district to include interior four on the projection surface
Limit shape, the first middle tetragon, the second middle tetragon and outer tetragon;
Described interior tetragon radially chain scissor mechanism is symmetrical, and four summits of described interior tetragon include adjacent three footpath
To the first summit, the second summit and the 3rd summit of the hoop hinged formation of chain scissor mechanism of chain scissor mechanism and inner side,
And it is positioned at the radial direction chain scissor mechanism of the second summit and radially adjoining and the midpoint of the pin joint of hoop chain scissor mechanism
The 4th summit constituted;
Described outer tetragon radially chain scissor mechanism is symmetrical, and four summits of described outer tetragon include adjacent three footpath
To the 5th summit, the 6th summit and the 7th summit of the hoop hinged formation of chain scissor mechanism in chain scissor mechanism and outside,
And it is positioned at the radial direction chain scissor mechanism of the 6th summit and radially adjoining and the midpoint of the pin joint of hoop chain scissor mechanism
The 8th summit constituted;
Described first middle tetragon radially chain scissor mechanism is symmetrical, and four summits of described middle tetragon are positioned at adjacent
Three radially on chain scissor mechanism, wherein, two summits are positioned at both sides in adjacent three radially chain scissor mechanism
Radially on chain scissor mechanism and be positioned on same hoop chain scissor mechanism, another two summit is positioned at adjacent three radially chain
On in the middle of shape scissor mechanism one radially chain scissor mechanism and respectively with the hoop chain scissors at two other place, summit
The spacing of mechanism is the half of the spacing being separated by hoop chain scissor mechanism;
Described second middle tetragon radially chain scissor mechanism is symmetrical, and four summits of described second middle tetragon are positioned at
On adjacent three radially chain scissor mechanism, wherein, two summits are positioned in adjacent three radially chain scissor mechanism
Between radially chain scissor mechanism is with on the pin joint of adjacent two hoop chain scissor mechanism, two other summit lays respectively at phase
In adjacent three radially chain scissor mechanism on the radial direction chain scissor mechanism of both sides and be positioned at adjacent two hoop chain scissors
Midpoint between mechanism;
Interior tetragon S, the first middle tetragon is N number of, and the second middle tetragon is M, outer tetragon P, S=X/2,
N=(Y-2) X/2, M=(Y-1) X/2, P=X/2, X are the number of radially chain scissor mechanism, and Y is hoop chain scissor mechanism
Number;
Described membrane structure is made up of the first film unit, the second film unit and tertiary membrane unit, described first film unit, the second film
Unit and tertiary membrane unit are formed by the film material of montant and overlying;Described interior tetragon connects described first film unit,
Described first middle tetragon and the second middle tetragon connect described second film unit, described outer tetragon connects
Described tertiary membrane unit;The montant lower end of described first film unit is both connected to constitute on the second summit of described interior tetragon,
The montant lower end of described second film unit is both connected to constitute being positioned at of described first middle tetragon and the second middle tetragon
Radially on chain scissor mechanism on the midpoint on two summits;The montant lower end of described tertiary membrane unit be both connected to constitute described outside
On 6th summit of tetragon;The other end of described montant is fixed with described film material, the surrounding of film material and described interior tetragon, the
Remaining summit of one middle tetragon, the second middle tetragon and outer tetragon is fixed, and the film material between adjacent Bu Mo district exists
Boundary is connected smoothly.
Planar radial folding house roof-film combinative structure the most according to claim 1, it is characterised in that: described radial direction chain
Scissor mechanism is evenly arranged on described annulus, and described hoop chain scissor mechanism is in the radially equidistant placement of annulus.
Planar radial the most according to claim 1 and 2 radially folding house roof-film combinative structure, it is characterised in that: described ring
Being 3~10 to the number of chain scissor mechanism, the number of described radial direction chain scissor mechanism is 10~40.
Planar radial folding house roof-film combinative structure the most according to claim 3, it is characterised in that: described first connecting rod
For straight-bar.
Planar radial folding house roof-film combinative structure the most according to claim 4, it is characterised in that: described first connecting rod
For plane straight-bar.
Planar radial folding house roof-film combinative structure the most according to claim 3, it is characterised in that: described second connecting rod
For straight-bar.
Planar radial folding house roof-film combinative structure the most according to claim 6, it is characterised in that: described second connecting rod
For plane straight-bar.
Planar radial folding house roof-film combinative structure the most according to claim 1, it is characterised in that: described montant is straight
Bar.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201610832199.3A CN106284810B (en) | 2016-09-19 | 2016-09-19 | Planar radial folding house roof-film composite structure |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201610832199.3A CN106284810B (en) | 2016-09-19 | 2016-09-19 | Planar radial folding house roof-film composite structure |
Publications (2)
Publication Number | Publication Date |
---|---|
CN106284810A true CN106284810A (en) | 2017-01-04 |
CN106284810B CN106284810B (en) | 2018-08-21 |
Family
ID=57711967
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201610832199.3A Active CN106284810B (en) | 2016-09-19 | 2016-09-19 | Planar radial folding house roof-film composite structure |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN106284810B (en) |
Citations (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US3094708A (en) * | 1958-02-07 | 1963-06-25 | Caldwell Alfred | Indoor-outdoor swimming pool and enclosure therefor |
JPH07229229A (en) * | 1994-02-21 | 1995-08-29 | Ohbayashi Corp | Opening and shutting roof structure |
US20070144078A1 (en) * | 2004-02-12 | 2007-06-28 | Kimmo Frondelius | Expandable container |
US20120131860A1 (en) * | 2010-11-29 | 2012-05-31 | Qatar Football Association | Microclimate cooling system for an indoor/outdoor stadium |
CN102605861A (en) * | 2012-03-08 | 2012-07-25 | 东南大学 | Deployable cable pole dome structure |
CN104912245A (en) * | 2015-06-16 | 2015-09-16 | 中国京冶工程技术有限公司 | Radial opening and closing film roof |
-
2016
- 2016-09-19 CN CN201610832199.3A patent/CN106284810B/en active Active
Patent Citations (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US3094708A (en) * | 1958-02-07 | 1963-06-25 | Caldwell Alfred | Indoor-outdoor swimming pool and enclosure therefor |
JPH07229229A (en) * | 1994-02-21 | 1995-08-29 | Ohbayashi Corp | Opening and shutting roof structure |
US20070144078A1 (en) * | 2004-02-12 | 2007-06-28 | Kimmo Frondelius | Expandable container |
US20120131860A1 (en) * | 2010-11-29 | 2012-05-31 | Qatar Football Association | Microclimate cooling system for an indoor/outdoor stadium |
CN102605861A (en) * | 2012-03-08 | 2012-07-25 | 东南大学 | Deployable cable pole dome structure |
CN104912245A (en) * | 2015-06-16 | 2015-09-16 | 中国京冶工程技术有限公司 | Radial opening and closing film roof |
Non-Patent Citations (1)
Title |
---|
刘锡良等: "《网格结构设计与施工》", 30 April 2004 * |
Also Published As
Publication number | Publication date |
---|---|
CN106284810B (en) | 2018-08-21 |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN106337499B (en) | The radial double-deck flexible grid structure | |
CN102644352B (en) | Radial telescopic net support with fixed support | |
CN102704608B (en) | Radially retractable roof structure | |
CN104912245B (en) | A kind of radial direction folding film roof system | |
WO2014114836A1 (en) | Modular adaptable housing architecture | |
CN106759918B (en) | A kind of deployable structure with rigid panel | |
CN106759917B (en) | A kind of planar radial retractable Roof Structures with trapezoidal rigid roofing structural unit | |
CN106284810A (en) | Planar radial folding house roof film combinative structure | |
CN106498839A (en) | A kind of bi-directional folded truss bridge construction | |
CN104746937A (en) | Modular folding display booth structure | |
CN106284807B (en) | Radially retractable roof structure | |
CN106284809A (en) | A kind of plane folding house roof film combinative structure | |
CN106320587B (en) | A kind of radial direction folding house roof-film composite structure | |
CN106351337A (en) | Radial telescopic net rack-membrane combined structure | |
CN106245778B (en) | Radial expansion latticed shell structure | |
CN106284673B (en) | Radial double-deck flexible rack-film composite structure | |
CN106400967B (en) | Radial telescopic net structure | |
CN106703206B (en) | A kind of deployable structure with trapezoidal rigid panel unit | |
CN106639110A (en) | Planar radial opening and closing roof structure with rigid roof panel | |
CN106400968B (en) | A kind of radial expansion reticulated shell-film composite structure | |
CN202577709U (en) | Radial expansion net rack provided with fixed support | |
CN102644351B (en) | Internally-folded retractable roof structure | |
CN106284808B (en) | Planar radial retractable Roof Structures | |
CN202611062U (en) | Internal folding retractable roof structure | |
CN106320586B (en) | Plane retractable Roof Structures |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
C06 | Publication | ||
PB01 | Publication | ||
C10 | Entry into substantive examination | ||
SE01 | Entry into force of request for substantive examination | ||
GR01 | Patent grant | ||
GR01 | Patent grant |