CN112554401A - Double-layer ecological building skin suitable for large public building - Google Patents

Abstract

The invention discloses a building skin, which comprises a main body frame, a curtain wall and a hanging plate curtain wall, wherein the main body frame is used for supporting an inner layer curtain wall and a hanging plate curtain wall; the inner curtain wall is arranged on the outer side of the main body frame and comprises a sandwich heat-insulation integrated plate arranged at a light-tight part and glass arranged at a light-transmitting part; the hanging plate curtain wall is arranged on the outer side of the inner curtain wall and comprises a panel and a hanging plate frame, the panel is arranged on the hanging plate frame, and the hanging plate frame is connected to the main body frame; and a connecting member for connecting the glass curtain wall and the hanging panel curtain wall to the main body frame. The building surface skin of the invention can strengthen the adaptability of the building, thereby better meeting the requirements of climatic conditions, having the advantages of comfort, durability, safety and the like, and simultaneously showing the thousand-pose and various-state aesthetic impressions due to different turning angles of the panel, thereby showing the flowing characteristic.

Description

Double-layer ecological building skin suitable for large public building

Technical Field

The invention belongs to the field of energy conservation and environmental protection, and particularly relates to a double-layer ecological building skin suitable for a large public building.

Background

The design of the building surface skin fully considers the external wall material, the thermal resistance of the wall surface, the specific heat capacity, the color, the external door and window and the shading condition of the building to determine the type and the form of the surface skin. The traditional building surface often can only meet the basic ventilation and lighting requirements of the building, and the consideration on building energy conservation and environmental protection is weak. For example, in a common blind window mode, the blind window can only turn horizontally according to the external sunlight condition, so that the blind window can only meet the basic requirement of shielding too strong sunlight, and has no strong requirements on ventilation and attractiveness. When the sun illumination with a small solar altitude angle in the morning or afternoon is needed to be shielded, the louver window is bound to be completely closed, the problems of reduced ventilation and reduced indoor brightness are caused, and the indoor ventilation equipment and the lamps are needed to supplement, so that the energy consumption is increased, and the requirements of energy conservation, environmental protection, attractiveness and the like cannot be met.

When the digital technology and the tool are applied to the design of the building skin structure, the energy-saving design of a building can be effectively calculated and simulated, but the problem is that most energy-saving designs are simply evaluated through various numerical values and indexes and become retrospective examination, so that the skin does not actively respond to different wind and light environments.

Accordingly, those skilled in the art have endeavored to develop an architectural skin that interacts positively with the environment, is environmentally friendly, saves energy, and is aesthetically pleasing.

Disclosure of Invention

In view of the fact that the building surface skin in the prior art cannot form active interaction with the environment and the fact that a plurality of curved surface skin panels exist possibly, the production and construction are inconvenient, the invention provides the energy-saving and environment-friendly building surface skin. The present invention may also solve one or more of the above problems.

One aspect of the invention provides an architectural skin. In one embodiment, the building skin comprises:

the main body framework is used for supporting the inner curtain wall and the hanging plate curtain wall;

the inner curtain wall is arranged outside the main body frame and comprises a sandwich heat-insulation integrated plate arranged at a light-tight part and glass arranged at a light-transmitting part;

the hanging plate curtain wall is arranged on the outer side of the inner layer curtain wall and comprises a panel and a hanging plate framework, wherein the panel is arranged on the hanging plate framework, and the hanging plate framework is connected to the main body framework;

and

and the connecting part is used for connecting the glass curtain wall and the hanging plate curtain wall to the main body framework.

Optionally, the panel is a flat plate, and the panel is an aluminum plate; optionally, one side of the panel close to the glass curtain wall is provided with one or more of a waterproof breathable layer, a heat insulation layer, a keel, a sound insulation layer and an indoor decoration sound absorption surface layer; and/or a nano-technology dustproof self-cleaning coating is arranged on one side of the panel, which is far away from the glass curtain wall.

Further, at least one part of the panels in the hanging plate curtain wall can be turned over at different angles according to requirements.

Alternatively, the panel can be flipped 0 to 90 about its diagonal.

Further, the relative angle between the panel and the integral building surface is kept constant, and the spatial curved surface form of the building surface is formed by adjusting the height of the superposition step; and/or forming a spatial curved surface form of the building skin by panel rotation.

Further, the adapting unit includes a first connecting rod assembly for fixing the panel and enabling the panel to form a fixed angle turn, including:

a first connection rod, a first end of which is welded to the main body frame;

three connecting claw members provided near the second end of the first connecting rod member, including: the first connecting claw piece, the second connecting claw piece and the third connecting claw piece are arranged at a certain distance; the first connecting claw piece and the third connecting claw piece are single rods extending outwards from the first connecting rod piece, and the second connecting claw piece is two opposite rods extending outwards from the first connecting rod piece; and

and the first connecting piece is arranged at the end part of the connecting claw piece far away from the connecting rod piece and is used for fixedly connecting with the panel.

Further, the connecting part includes a second connecting rod assembly for fixing the panel and enabling the panel to be turned over at different angles, including:

a second connection rod, a first end of which is welded to the main body frame;

the connector is installed on the second end of the second connecting rod piece, comprises two opposite side wings extending outwards from the second connecting rod piece and is fixedly connected with the panel through the two side wings.

Furthermore, a connecting rod is arranged on the diagonal line of one side of the panel close to the inner curtain wall, and two ear plates are arranged on the connecting rod; the two ear plates are connected with the two side wings; the otic placode is articulated node, can freely angle regulation.

Further, the body frame is made up of a set of square orthogonal grids.

Further, at least one diagonal direction of the square orthogonal grid of the main body frame is provided with an inclined rod to increase the strength and rigidity of the main body frame.

Optionally, the building skin further comprises a control system comprising:

a sensor for detecting a change in an external environment;

and the controller controls the turning angle of the panel according to the change of the external environment detected by the sensor.

Optionally, the main body frame is a steel structure frame, and the side length of the square orthogonal grid is 3 meters. Optionally, the distance between the glass curtain wall and the main body frame is 250 mm; the distance between the hanging plate curtain wall and the main body framework is 1000 mm.

Optionally, the panel is an aluminum plate. Optionally, the color of the panel is silvery white. Optionally, the panel is an anodized aluminum plate, and the panel is strong in dirt resistance, easy to clean and not easy to generate corrosion mottle.

The building surface of the invention is not only an optimization to the building surface, but also can strengthen the adaptability of the building, thereby better meeting the requirements of climatic conditions, creating the building type with the characteristics of comfort, durability, safety and the like, simultaneously presenting the thousand-pose and hundreds-state aesthetic feelings in the dynamic process and embodying the flowing characteristic. In particular, the following advantages are provided:

1) the curtain wall cavity is formed between the glass curtain wall and the hanging plate curtain wall, the structure of the double-layer surface skin can form a composite structure or an air interlayer, the indoor ventilation effect can be adjusted properly, and in addition, the air interlayer is used as a buffer space to strengthen the heat preservation and insulation effect of the building surface skin.

1) The building epidermis includes the link plate curtain, and the link plate curtain comprises the panel unit, and in some embodiments, the panel is aluminum plate, can form an energy interface in the building outside, reaches energy-conserving effect. The panels in the panel unit of the building skin can be turned over at different angles according to the change of the external environment. Under the control of a control system, a program language and the like, certain automatic adjustment switch is realized according to the solar ray intensity and the indoor ventilation condition through algorithm control, and an environment-adaptive skin system is formed.

The panels at different positions of the building surface can realize different turnover angles according to the difference of external environments at different positions, and the self-adaption to the external environments is realized, so that the self-adaption to the external environments can be realized, the external illumination environment can be self-adapted to change, the effective ventilation control can be realized, and the environment friendliness and the energy conservation can be realized. Because the different flip angles of above-mentioned different positions for whole link plate curtain demonstrates nimble dynamic change, has increased the aesthetic property and the dynamic nature of building epidermis.

2) In some embodiments, the panel is fixed at two corners of a diagonal and is flipped along the diagonal. One or two of the other two vertex angles of the panel which are not fixed can be turned over in angle, so that the panel is in a fish scale shape, and when the panel is turned over into different angles, the integral building surface is more attractive.

3) In some embodiments, the panel is made of an anodized aluminum plate, which is easy to clean and not prone to corrosion mottle. In some embodiments, one or more of a waterproof breathable layer, a heat insulation layer, a keel, a sound insulation layer and an indoor decoration sound absorption surface layer are arranged on one side, close to the glass curtain wall, of the panel, so that the winter heat insulation effect of the building surface skin on the building can be further enhanced, and the ventilation effect can be improved. One side of the panel, which is far away from the glass curtain wall, is provided with a nanotechnology dustproof self-cleaning coating which can cope with the dusty external environment.

4) In some specific embodiments, the main body frame of the building skin is a square orthogonal grid, and an inclined rod is arranged on one diagonal line of the grid, so that the main body frame is optimized into a reasonable triangular unit, and the support performance of the main body frame on the glass curtain wall and the hanging plate curtain wall is improved.

5) The energy-saving and environment-friendly double-layer ecological building skin in the specific embodiment of the invention is suitable for large public buildings.

Drawings

FIG. 1 is an exploded view and assembled perspective view of an architectural skin according to one embodiment of the present invention.

FIG. 2 is a perspective view from another direction of an architectural skin of one embodiment of the present invention.

FIG. 3 is a perspective view of a first connecting rod assembly in an embodiment of the present invention.

Fig. 4 is a view of the building skin of one embodiment of the present invention from the rear.

Fig. 5 is a view of the building skin of fig. 4 from the front.

FIG. 6 is a back view of a panel in one embodiment of the invention.

FIG. 7 is a perspective view of a second link assembly in an embodiment of the invention.

FIG. 8 is a view of the building skin from the rear in one embodiment of the invention.

FIG. 9 is a schematic representation of the spatial curvature of the building skin in one embodiment of the invention.

Fig. 10 is a schematic view of the formation of a spatial curved surface pattern of the building skin in one embodiment of the invention.

Detailed Description

The present invention will be further described with reference to the following examples, which are intended to be illustrative only and are not intended to limit the scope of the present invention.

"horizontal" means parallel to the horizontal plane; "vertical" means perpendicular to the horizontal plane.

"outside" means the side away from the building; "inboard" means the side adjacent the building.

"connected" may mean that two elements are connected directly or indirectly to each other through a third element.

Example 1

The building skin shown in fig. 1 and 2 comprises a main frame 10, a glass curtain wall 20, a cladding curtain wall 30, and a connecting member 40.

The main body frame 10 is a steel frame, and is formed in a square orthogonal grid structure by steel materials being horizontally and vertically orthogonal to each other. In an alternative embodiment, diagonal rods 11 are provided on one diagonal of the square orthogonal grid to increase the strength and rigidity of the body frame. The plurality of diagonal rods 11 in the main body frame 10 are arranged in the same direction.

The glass curtain wall 20 is disposed outside the main body frame 10 with a certain distance from the main body frame 10, or is directly fixed outside the main body frame 10 without a certain distance from the main body frame 10. The glass curtain wall 20 is a frame type and is composed of a glass curtain wall frame and glass. The glass curtain wall frame is in a square orthogonal grid structure, wherein each square orthogonal grid is provided with a piece of glass. The 4 square orthogonal grids of the glass curtain wall frame correspond to the square orthogonal grids of the main body frame.

The hanging plate curtain wall 30 is arranged on the outer side of the glass curtain wall 20, a certain spacing distance exists between the hanging plate curtain wall 30 and the glass curtain wall 20, and when the panel in the hanging plate curtain wall 30 is turned over to a certain angle through the spacing distance, the panel cannot contact with the glass curtain wall 20. Optionally, the glass curtain wall 20 is not contacted when the panel is turned 90. The peg board curtain wall 30 includes a panel unit 31 and a peg board frame 32. The hanging plate frame 32 may be a steel frame or an aluminum alloy frame, may form a square grid-shaped steel frame or an aluminum alloy frame, or may be formed by a vertical steel or aluminum alloy pipe and a 45-degree steel or aluminum alloy pipe obliquely arranged. The panel unit 31 includes a square panel 311.

In one embodiment, two top corners of the panel 311 on one diagonal, which is the axis of inversion of the panel 311, are connected to the peg board frame 32. The 4 panels 311 correspond to a square orthogonal grid of the body frame 10.

In an alternative embodiment, the panel 311 is a polygonal structure formed by cutting off a freely rotatable corner on a square basis.

In an alternative embodiment, the faceplate 311 is an anodized aluminum plate. In an alternative embodiment, one side of the panel 311 adjacent to the glass curtain wall 20 is provided with one or more of a waterproof and breathable layer, an insulating layer, a keel, an acoustic layer, and an interior decorative sound-absorbing surface layer, so that the panel has one or more of waterproof, breathable, heat-insulating, sound-insulating, and sound-absorbing functions. In an alternative embodiment, the side of the panel 311 remote from the glass curtain wall 20 is provided with a nano-technology dust-repellent self-cleaning coating to cope with dusty environments.

The curtain wall cladding 30 and the glass curtain wall 20 are fixed to the body frame 10 by a connecting member 40. The connecting members 40 are perpendicular to the pegboard curtain wall 30, the glass curtain wall 20 and the body frame 10, and make one square orthogonal grid of the body frame 10 correspond to 4 square orthogonal grids of the glass curtain wall frame and 4 panels 311.

In an alternative embodiment, a square orthogonal grid of the body frame 10 has a side length of 3 meters; the distance between the glass curtain wall 20 and the main body frame 10 is 250 mm; the distance between the hanging panel curtain wall 30 and the main body frame 10 is 1000 mm.

In an optional embodiment, the heat transfer coefficient K of the glass curtain wall is less than or equal to 1.9, and the sun-shading coefficient of the glass curtain wall is 0.47.

In an alternative embodiment, the building skin further comprises a control system comprising sensors disposed on at least one panel 311 for detecting changes in the external environment; and the controller is arranged in the building and is communicated with the sensor, and the controller adjusts the turnover angle of at least one part of the panels according to the change of the external environment detected by the sensor, so that the aims of shading, adjusting the illumination intensity, ventilating and the like are fulfilled. .

The building skin, as described above, allows the building to be wrapped with continuous aluminum panels, forming an energy efficient interface. The non-transparent part adopts a fish scale-shaped aluminum plate, and the transparent part meets different functional requirements according to the turning angle of the aluminum plate.

Example 2

The building skin includes a main body frame 10, a glass curtain wall 20, a hanging panel curtain wall 30, and a connecting member 40. The arrangement of the main frame 10 and the glass curtain wall 20 is the same as that in embodiment 1, and the description in this embodiment is omitted.

The hanging panel curtain wall 30 comprises a panel 311 with a fixed turning angle and a panel 311 capable of turning at different angles. The connecting member 40 includes a first connecting rod assembly 50 and a second connecting rod assembly 60.

For the panel 311 with a fixed turning angle, an aluminum alloy square tube is arranged at the back of the panel 311 along the edge of the panel, and a circular aluminum alloy connecting assembly is arranged at each vertex angle of the panel 311 and is used for being matched with a first connecting rod assembly to realize the connection and fixation of the panel 311 and the first connecting rod assembly.

As shown in fig. 3, the first connecting rod assembly 50 includes a first connecting rod member 51, which is disposed at a first end thereof on the main body frame 10, for example, by welding. The first connecting rod assembly 50 further includes first, second and third connecting jaw members 52, 53 and 54 disposed adjacent to the second end of the first connecting rod member 51, at a distance; the first and third coupling jaw members are a single bar extending outwardly from the first coupling jaw member and the second coupling jaw member is two opposing bars extending outwardly from the first coupling jaw member. The bars of the first coupling jaw 52 and the bars of the third coupling jaw 54 are substantially perpendicular to the bars of the second coupling jaw 53, as viewed from the front of the first coupling rod assembly 50. The first connecting rod assembly 50 further comprises a first connecting member 55 disposed at an end of the connecting claw member far from the connecting rod member, and the panel 311 is mounted on only the first connecting rod assembly 50 through the cooperation of the first connecting member 55 and the circular aluminum alloy connecting assembly on the panel 311. Specifically, 4 bars connect four adjacent corners of the four panels, respectively, by 4 first connectors 55, as schematically shown in fig. 4.

The fixed flip angle may be set by the distance of the separation between the first coupling jaw 52 and the third coupling jaw 54 on the first coupling lever assembly 50, for example, the fixed angle of the panel may be set to 9.9 ° (as schematically shown in fig. 5).

To the panel 311 that can overturn different angles, set up aluminum alloy keel 312 at the back of panel 311, aluminum alloy keel 312 sets up along the diagonal of panel 311, sets up the connection otic placode at the tip of aluminum alloy keel, and the connection otic placode can be nested and install at aluminum alloy keel 312 tip. The back surface of the panel 311 is also provided with two aluminum alloy cross runners 313, the two aluminum alloy cross runners 313 are arranged at two corners of the panel 313, and the aluminum alloy cross runners 312 are connected with the two aluminum alloy cross runners 313 by screws.

The aluminum alloy square tube is arranged on the back of the panel 311 along the edge of the panel, and a round aluminum alloy connecting assembly is arranged at each vertex angle of the panel 311 and is used for being matched with the first connecting rod assembly to realize the connection and fixation of the panel 311 and the first connecting rod assembly.

As shown in fig. 7, the second link assembly 60 includes a second link member 61 having a first end disposed on the main body frame 10 by, for example, welding. The second connecting rod assembly 60 further includes a connector 62 disposed adjacent a second end of the second connecting rod 61. The connecting head 62 includes two opposite side wings 621 extending outward from the second connecting rod, and is fixedly connected with the panel 311 through the two side wings 621. Specifically, the connecting head 62 is fixed to the second end of the second connecting rod 61 by using a bolt to be nested. The two side wings 621 are connected with connecting ear plates (for example, fixedly connected by bolts) provided at the end portions of the aluminum alloy keels 312 of the panels 311, the connecting ear plates are hinged nodes, and the angle of the connecting ear plates can be freely adjusted, for example, between 9.9 ° and 90 ° (as schematically shown in fig. 8).

In an alternative embodiment, the relative angle between the panel 311 and the entire building skin is kept constant, and the spatial curved surface form of the building skin is formed by adjusting the height H value of the stacking step difference (as schematically shown in fig. 9 and 10); and/or forming a spatial curved surface form of the building skin by panel rotation.

Claims (10)

1. An architectural skin, comprising:

the main body framework is used for supporting the inner curtain wall and the hanging plate curtain wall;

the inner curtain wall is arranged on the outer side of the main body frame and comprises a sandwich heat-insulation integrated plate arranged at a light-tight part and glass arranged at a light-transmitting part;

the hanging plate curtain wall is arranged on the outer side of the inner curtain wall and comprises a panel and a hanging plate frame, the panel is arranged on the hanging plate frame, and the hanging plate frame is connected to the main body frame;

and

and the connecting component is used for connecting the glass curtain wall and the hanging plate curtain wall to the main body framework.

2. The building skin of claim 1 wherein at least a portion of the panels in the cladding curtain wall can be turned over and at different angles as required.

3. The building skin of claim 2 wherein the panel is capable of being flipped about its diagonal from 0 ° to 90 °.

4. The building skin of claim 1, wherein the relative angle between the panel and the integral building skin is maintained constant, and the spatial curved topography of the building skin is formed by adjusting the height of the stacking step; and/or forming a spatial curved surface form of the building skin by panel rotation.

5. The building skin of claim 1 wherein the connecting member comprises a first connecting rod assembly for securing the panel and enabling the panel to be flipped at a fixed angle, comprising:

a first connection rod having a first end welded to the main body frame;

three connecting jaw members disposed adjacent to the second end of the first connecting link member, comprising: the first connecting claw piece, the second connecting claw piece and the third connecting claw piece are arranged at a certain distance; the first connecting claw piece and the third connecting claw piece are single rods extending outwards from the first connecting rod piece, and the second connecting claw piece is two opposite rods extending outwards from the first connecting rod piece; and

and the first connecting piece is arranged at the end part of the connecting claw piece far away from the connecting rod piece and is used for fixedly connecting with the panel.

6. The building skin of claim 1 wherein the connecting member includes a second connecting rod assembly for securing the panel and enabling the panel to be flipped through different angles, comprising:

a second connection rod having a first end welded to the main body frame;

the connector is installed on the second end of the second connecting rod piece, comprises two opposite side wings extending outwards from the second connecting rod piece, and is fixedly connected with the panel through the two side wings.

7. The building skin of claim 6 wherein a connecting bar is provided on the diagonal of the side of the panel adjacent the inner curtain wall, the connecting bar having two ear panels; the two ear plates are connected with the two side wings; the otic placode is articulated node, can freely angle regulation.

8. The building skin of claim 1 wherein the body frame is comprised of a set of square orthogonal grids.

9. The building skin of claim 8 wherein at least one diagonal of the square orthogonal grid of the body frame is provided with diagonal bars to increase the strength and rigidity of the body frame.

10. The architectural skin of claim 1, further comprising a control system, the control system comprising:

a sensor for detecting a change in an external environment;

and the controller controls the turning angle of the panel according to the change of the external environment detected by the sensor.

Images