CN218843457U - Hyperboloid honeycomb aluminum plate structure - Google Patents

Abstract

The utility model discloses a hyperboloid honeycomb aluminum plate structure, including built-in fitting, turn round fossil fragments, stand, cross bracing, adaptor, regulation staple bolt and honeycomb aluminum plate, the built-in fitting is fixed and is used for connecting the stand on the roofing, the stand is two posts that differ in size, turn round fossil fragments in stand top welding, the cross bracing includes crossbeam and little crossbeam, the crossbeam is located the stand bottom, passes through the full weld with stand and turn round fossil fragments and is connected, little crossbeam is located the both ends and the middle part position of turn round fossil fragments, the adaptor is located turn round fossil fragments upper portion, it is located little crossbeam to adjust the staple bolt, honeycomb aluminum plate is located the upper portion of adjusting staple bolt and adaptor. Through this structure, the effectual problem of having solved roofing eaves mouth variable camber realizes the effectual linking (peaceful transition) of outer facade and roofing structure, lets the transition face seem more natural and pleasing to the eye, and this structure has simple structure simultaneously, simple to operate and low in cost's characteristics.

Description

Hyperboloid honeycomb aluminum plate structure

Technical Field

The utility model relates to a curtain decorates technical field, concretely relates to hyperboloid honeycomb aluminum plate structure.

Background

In some public buildings, in order to create landmark buildings and make the distinctive design, streamline lines, single curved surfaces, double curved surfaces and even multiple curved surfaces are usually adopted for design combination, so as to represent more beautiful, more curved and more representative buildings. Especially, roofing eaves mouth relates to the position of variable curved surface, how to realize the effectual linking up of outer facade and roofing structure (peaceful transition), makes the transition face seem more natural and pleasing to the eye, builds the form of whole building beautiful, avoids influencing whole structure overall design effect, has become the problem that the urgent need was solved.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome prior art's shortcoming, provide a hyperboloid honeycomb aluminum plate structure, realize the effectual linking (peaceful transition) of outer facade and roofing structure, let the transition face seem more natural and pleasing to the eye, build the form of whole building beautiful, avoid influencing whole structure global design effect.

In order to solve the problem, the utility model adopts the technical scheme that:

the utility model provides a hyperboloid honeycomb aluminum plate structure, includes the built-in fitting, the built-in fitting passes through the inflation screw and fixes with the roofing, still the welding has the stand on the built-in fitting, the stand is two, is stand one and stand two respectively, welding turn-buckle fossil fragments on stand one and the stand two, turn-buckle fossil fragments divide into preceding part curved surface turn-buckle fossil fragments and latter half curved surface turn-buckle fossil fragments, still include the cross brace, the cross brace includes crossbeam, little crossbeam, the crossbeam is located the bottom of stand one and is connected with stand one and the full weld of turn-buckle fossil fragments of variable curved surface respectively, little crossbeam sets up respectively on stand and curved surface turn-buckle fossil fragments welding position's curved surface turn-buckle fossil fragments and curved surface turn-buckle fossil fragments middle part, still including setting up honeycomb aluminum plate one and honeycomb aluminum plate two on turn-buckle fossil fragments.

And an inclined support is further arranged on one side of the second upright post, and two ends of the inclined support are respectively connected with the curved surface bending keel and the roof.

The top of the stand column is welded with the transition part of the variable curved surface bending keel and the curved surface bending keel, the stand column is two-position at the front part of the stand column, and the top of the stand column is welded with the curved surface bending keel.

And the small cross beam at the middle position is provided with an adjusting hoop.

And a plurality of adapter pieces are uniformly arranged on the curved surface bending keel and the variable curved surface bending keel, and the adapter pieces are positioned below the honeycomb aluminum plate I and the honeycomb aluminum plate II.

The cross beam and the small cross beam are mutually vertical in space.

Based on the technical scheme, the following technical effects can be generated:

the utility model provides a pair of hyperboloid honeycomb aluminum plate structure, through this structure, the effectual problem of having solved roofing eaves mouth variable curved surface realizes the effectual linking (peaceful transition) of outer facade and roofing structure, lets the transition face seem more natural and pleasing to the eye, and the form of outstanding whole building is beautiful, avoids influencing this structure of overall structure global design effect simultaneously and has simple structure, simple to operate and low in cost's characteristics.

Drawings

FIG. 1 is a schematic view of the present invention;

FIG. 2 is a schematic view of the installation of the adjusting hoop and the adaptor of the present invention;

in the figure, 1-embedded part, 2-first upright post, 3-second upright post, 4-variable curved surface bending keel, 5-curved surface bending keel, 6-cross beam, 7-small cross beam, 8-adjusting hoop, 9-adapter, 10-first honeycomb aluminum plate, 11-second honeycomb aluminum plate and 12-inclined support.

Detailed Description

It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the invention.

In the description of the present invention, it should be understood that the orientation or positional relationship indicated with respect to the orientation description, such as up, down, front, rear, left, right, etc., is based on the orientation or positional relationship shown in the drawings, and is only for convenience of description and simplification of description, and does not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

In the description of the present invention, unless there is an explicit limitation, the words such as setting, installation, connection, etc. should be understood in a broad sense, and those skilled in the art can reasonably determine the specific meanings of the above words in combination with the specific contents of the technical solution.

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

As shown in fig. 1, a hyperboloid honeycomb aluminum plate structure, including built-in fitting 1, built-in fitting 1 is fixed with the roofing through the expansion screw, it has the stand still to weld on the built-in fitting 1, the stand is two, is stand one 2 and stand two 3 respectively, weld the turn-buckle fossil fragments on stand one 2 and the stand two 3, the turn-buckle fossil fragments divide into front portion curved surface turn-buckle fossil fragments 5 and latter half curved surface turn-buckle fossil fragments 4, still include the cross brace, the cross brace includes crossbeam 6, little crossbeam 7, crossbeam 6 is located the bottom of stand one 2 and is connected with stand one 2 and curved surface turn-buckle fossil fragments 4 full weld respectively, little crossbeam 7 sets up respectively on stand and curved surface turn-buckle fossil fragments 5 welding position's curved surface turn-buckle fossil fragments 5 and curved surface turn-buckle fossil fragments 5 middle parts, still including setting up honeycomb aluminum plate one 10 and honeycomb aluminum plate two 11 on the turn-buckle fossil fragments.

And one side of the second upright post 3 is also provided with an inclined support 12, and two ends of the inclined support 12 are respectively connected with the curved surface bending keel 5 and the roof.

2 tops of stand one and the transition department welding of the curved surface turn-buckle fossil fragments 4 and curved surface turn-buckle fossil fragments 5 of becoming, two 3 stands are located stand one 2 front portions, two 3 tops of stand and the welding of curved surface turn-buckle fossil fragments 5, stand one 2 and two 3 stands are located curved surface turn-buckle fossil fragments 5 below, provide effective support for it.

Install on the little crossbeam 7 of middle part position and adjust staple bolt 8, adjust staple bolt 8 and fix on little crossbeam 7 through self-tapping screw, realize the steady transition of honeycomb aluminum plate curve through regulating part on the staple bolt, solve honeycomb aluminum plate because variable cross section, elevation, the asymmetric concatenation problem in gap.

Evenly be provided with a plurality of adapters 9 on curved surface turn-buckle fossil fragments 5 and the variable curved surface turn-buckle fossil fragments 4, and adapter 9 is located honeycomb aluminum plate one 10 and the below of honeycomb aluminum plate two 11, as honeycomb aluminum plate's erection support.

The cross beam 6 and the small cross beam 7 are mutually vertical in space, and the cross beam 6 is mainly used for supporting the variable-curve-surface bending keel 4, so that stress deformation caused by overlong cantilever after the bending keel has a variable cross section is avoided, and the forming effect and quality are prevented from being influenced; the small cross beam 7 is mainly used for preventing the curved surface bending keel 5 from deforming or shifting a framework system due to lack of support under the load action, and meanwhile, the hoop support is provided for the splicing position of the aluminum plate.

The double-curved-surface unit steel skeleton structure is formed by the upright columns, the cross beams and the cranked keels, then the double-curved-surface unit steel skeleton structure is connected into a complete and stable skeleton system by the middle small cross beams, the unit steel skeletons are connected in series through the small cross beams one by one to form a bent double-curved-surface network structure, and then a complete structure system is formed by installing double-curved-surface honeycomb aluminum plates on the skeleton system.

The present invention has been described in detail with reference to the accompanying drawings and the embodiments, but the present invention is not limited to the above embodiments, and various changes can be made without departing from the spirit of the present invention within the scope of the present invention. Therefore, the present invention is not limited to the specific embodiments disclosed herein, and all embodiments falling within the scope of the claims of the present application are intended to be covered by the present invention.

Claims (6)

1. The utility model provides a hyperboloid honeycomb aluminum plate structure, a serial communication port, including built-in fitting (1), built-in fitting (1) is fixed with the roofing through the inflation screw, it has the stand still to weld on built-in fitting (1), the stand is two, is stand one (2) and stand two (3) respectively, weld the turn-buckle fossil fragments on stand one (2) and stand two (3), the turn-buckle fossil fragments divide into preceding part curved surface turn-buckle fossil fragments (5) and latter half curved surface turn-buckle fossil fragments (4), still include the cross brace, the cross brace includes crossbeam (6), little crossbeam (7), crossbeam (6) are located the bottom of stand one (2) and are connected with stand one (2) and the full weld of turn-buckle fossil fragments (4) of variable curved surface respectively, little crossbeam (7) set up respectively on stand and curved surface turn-buckle fossil fragments (5) the middle part, still including setting up honeycomb aluminum plate (10) and honeycomb aluminum plate (11) on the turn-buckle.

2. The double-curved-surface honeycomb aluminum plate structure as claimed in claim 1, wherein an inclined support (12) is further arranged on one side of the second upright column (3), and two ends of the inclined support (12) are respectively connected with the curved-surface bending keel (5) and a roof.

3. The double-curved-surface honeycomb aluminum plate structure as claimed in claim 1, wherein the top of the first upright (2) is welded with the transition part of the variable-curved-surface crankling keel (4) and the curved-surface crankling keel (5), the second upright (3) is positioned at the front part of the first upright (2), and the top of the second upright (3) is welded with the curved-surface crankling keel (5).

4. The double-curved-surface honeycomb aluminum plate structure as claimed in claim 1, wherein the small cross beam (7) at the middle position is provided with an adjusting hoop (8).

5. The double-curved-surface honeycomb aluminum plate structure as claimed in claim 1, wherein a plurality of adapters (9) are uniformly arranged on the curved-surface crankle keel (5) and the variable-curved-surface crankle keel (4), and the adapters (9) are positioned below the first honeycomb aluminum plate (10) and the second honeycomb aluminum plate (11).

6. A hyperboloid honeycomb aluminium sheet structure according to claim 1, characterized in that the cross beams (6) and the small cross beams (7) are spatially perpendicular to each other.

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