CN211201045U - High-rise building facade decorative cover and decorative structure - Google Patents

Abstract

The embodiment of the utility model discloses high-rise building facade decorative cover, it comprises the vertical range of a plurality of decoration units, and every decorates the unit and includes central component, locates the connecting elements of central component both sides and locates the end member in the connecting elements outside. The embodiment of the utility model provides a hydrophobic, sunshade, the decorative structure of locating the high-rise building facade outside still disclosed. Adopt the utility model discloses, can be at the peripheral dress trim cover of high-rise building, when promoting building gas group, solve the existing rainwater and dredge a difficult problem. On the other hand, the lighting adjustment is placed at the head, and the rotation of the decorative cover is utilized to provide stable lighting for the indoor space, so that the energy is saved and the environment is protected; under the condition that accords with the condition, the angle of further adjusting dress trim cover, with building outlying wind leading-in indoor, make indoor personnel can enjoy natural draft, improve personnel's in the building comfort level, also more environmental protection.

Description

High-rise building facade decorative cover and decorative structure

Technical Field

The utility model relates to a building decoration material especially relates to a high-rise building facade dress trim cover and decorative structure.

Background

The times are developed to the present, and the construction of the skyscraper is not only for the purpose of efficiently utilizing the land, but also becomes a symbol of the developed level of the city. The number of high buildings in a city reflects the comprehensive strength of the city from the side. High-rise building design needs to consider the problem of top-level rainwater collection and drainage.

The rainwater discharge pipe of early building engineering adopts galvanized steel pipe, and the gravity flow drainage system multistoried building should adopt building drainage plastic pipe, and high-rise building should adopt pressure-bearing plastic pipe, tubular metal resonator, because the rainwater is because of the reason of acid rain, very big to the galvanized pipe corrosion, the live time will be out of order for a short time, so the use has basically stopped using now, this is considered from the actual starting, does not have mandatory regulation.

In consideration of building facade beauty, the rainwater on the roof of a high-rise building generally adopts an internal drainage mode, and the position of a rainwater vertical pipe is influenced by factors such as roof gutter, building plane layout and the like. An architect habitually sets the gutter at a position, close to the parapet, on the periphery of the building roof, and the roof looks for slopes from the middle to the periphery; thus, the rainwater hopper is located close to the periphery of the building, so the rainwater vertical pipe is generally arranged along the column on the periphery of the building, and the common mode is sometimes unreasonable in practical engineering. The design example is that a certain building is located in a certain city in the south, has the functions of a first-level office building and 53 floors above the ground, and the buildingHeight of 230.3m²The roof is sloped to the south and north, a gutter is arranged on the parapet side, and 8 DN100 rainwater vertical pipes are arranged on the roof. The building is provided with balconies at 52 layers of south and north and 53 layers of east and west, and rainwater pipes are also needed. If the balcony and the roof share the rainwater pipe, the balcony floor drain can be flooded, and the inherent independent arrangement of the rainwater pipe can cause the balcony floor drain to be flooded, so 4 DN100 balcony rainwater pipes are independently arranged. Thus there are 12 rainwater risers at each floor below level 52.

Because the building is a high-grade office building and the interior is finished, the rainwater vertical pipes are decorated by building walls, the space size occupied by each rainwater vertical pipe is 300mm × 300mm, and the design condition of a rainwater system of the project is analyzed, the number of the rainwater vertical pipes is large, and the average catchment area which is converted into the average burden of each rainwater pipe of DN100 is less than 200m²The drainage capacity of the pipeline is not fully utilized; and the rainwater riser occupies more indoor space, influences the service function of building.

Reference to the residential building code (GB 50368-2005) 8.1.4 specifies "the main water riser, the rain riser, … …, of a residence, should not be arranged in a jacket". When the commercial office building is sold, property rights in the building set belong to buyers, the property of the building set is similar to that of a house, and a pipeline shared by the whole building cannot enter the property right range of the owners, because when a rainwater pipe is positioned in the suite of the buyers, managers cannot conveniently enter a private space for maintenance; and the rainwater pipeline is also inconvenient to maintain after being installed by building a wall. In case of damage and water leakage of the rainwater pipeline, economic loss is caused to buyers, and economic disputes can be caused. In addition, the rainwater pipeline occupies the use area and also influences the building utilization rate.

The key point of the problem is to move the rainwater stand pipe out of the office suite and reduce the number of rainwater pipes as much as possible. The traditional optimization scheme is to arrange rainwater pipes in a public space in a building core barrel. The available space is the position of water supply and drainage pipe well, air-conditioning and freezing water pipe well, stairwell and toilet corner, etc. Although the method is relatively in line with the economic principle, pipelines still need to be arranged in the building, and the design is complex; a large number of pipelines are arranged in a public space, so that the appearance is influenced, and once the pipelines are blocked or damaged, the safety of personnel and property is possibly harmed.

SUMMERY OF THE UTILITY MODEL

The embodiment of the utility model provides a technical problem that will solve provides a high-rise building facade dress trim cover and decorative structure, can promote the aesthetic feeling of building, plays the effect of dredging the balcony rainwater simultaneously, and the construction is simple and convenient, reduces engineering cost.

The embodiment of the utility model provides a technical problem that will solve provides a high-rise building facade dress trim cover and decorative structure, can realize intelligent sunshade and wind-guiding effect.

In order to solve the above technical problem, an embodiment of the present invention provides a high-rise building facade decorative cover, which is composed of a plurality of decorative units vertically arranged, wherein each decorative unit comprises a central member, connecting members arranged on both sides of the central member, and end members arranged outside the connecting members; the central component is provided with a first quadrilateral outer frame which is bilaterally symmetrical, the left side and the right side of the first quadrilateral outer frame are provided with first sub-buckles, and a first circular cavity is arranged in the first quadrilateral outer frame; the connecting component comprises a second quadrilateral outer frame with the section width gradually changing from left to right, a first female buckle is arranged on the wider side of the second quadrilateral outer frame, and a second female buckle is arranged on the narrower side of the second quadrilateral outer frame; the tail end component comprises a trapezoid main body and an arc-shaped tail end, a second circular cavity is arranged in the trapezoid main body, and a second sub-buckle is arranged on the connecting surface of the trapezoid main body.

As an improvement of the scheme, the decoration units are vertically arranged, namely, a first communicating pipe is sleeved in a first circular cavity, the decoration units are connected in series, and the first circular cavities in all the decoration units are kept coaxial.

As an improvement of the above scheme, a first inner groove is vertically arranged in the first circular cavity, and a first convex strip is arranged on the outer surface of the first communication pipe; when the first connecting pipe extends into the first circular cavity, the first raised strip is positioned in the first inner groove.

As an improvement of the above scheme, a second communicating pipe is sleeved in the second circular cavity.

As an improvement of the above scheme, a second inner groove is vertically arranged in the second circular cavity, and a second convex strip is arranged on the outer surface of the second communicating pipe; when the second communicating pipe extends into the second circular cavity, the second convex strip is positioned in the second inner groove.

Correspondingly, the embodiment also provides a high-rise building facade decorative structure, which comprises the high-rise building facade decorative covers as described above, wherein the decorative covers are arranged at the periphery of the high-rise building facade at a preset distance; the two ends of the decorative cover are provided with rotating mechanisms which can drive the decorative cover to rotate by a preset angle; the interior of the decorative cover is provided with a first round cavity and a second round cavity, the top of the first round cavity and/or the second round cavity is connected with a water outlet of the rainwater collecting mechanism, and the bottom of the first round cavity and/or the second round cavity is connected with a sewer.

As an improvement of the above scheme, the rotating mechanism includes a bearing for fixing the first communication pipe, a first gear coaxially arranged at the bottom of the first communication pipe, a second gear engaged with the first gear, and a reduction motor fixedly connected with the second gear.

As an improvement of the above scheme, the rainwater collecting mechanism comprises a rainwater collecting pipe network, the rainwater collecting pipe network collects rainwater at various positions of the balcony and collects the rainwater to the water outlet, and the water outlet is connected with the top of the first circular cavity and/or the second circular cavity through a hose.

Finally, the embodiment also provides a hydrophobic, sun-shading and decorating method for a high-rise building, which comprises the following steps:

1) vertically arranging the high-rise building facade decorative cover on the periphery of the high-rise building facade;

2) the decorative cover is driven by a rotating mechanism, so that the decorative cover can rotate by a preset angle according to requirements;

3) and connecting a rainwater collecting mechanism arranged on the roof of the high-rise building with the top end of the first communicating pipe and/or the second communicating pipe in the decorative cover, and guiding rainwater into a sewer by using the first communicating pipe and/or the second communicating pipe.

As an improvement of the above scheme, the method further comprises installing a wind speed sensor, a wind direction sensor and a light ray sensor on the high-rise building, and respectively acquiring wind speed, wind direction and light ray intensity values of the current high-rise building corresponding position;

calculating the rotation angle range A of the decorative cover according to the obtained light intensity numerical value;

judging whether the wind speed value is within the adjustable wind speed range, if so, adjusting the front orientation of the decorative cover by using a rotating mechanism within a rotating angle range A, and guiding the wind around the high-rise building into the building; if the wind speed is not within the adjustable wind speed range, the middle value is taken within the rotating angle range A, and the front face of the decorative cover is adjusted to the middle value by using the rotating mechanism.

Implement the embodiment of the utility model provides a, following beneficial effect has:

the assembly is connected through the syllogic to this embodiment, assemble each other with three cavity large cross section bars, with two points public female design between the section bar, it is fixed to penetrate from the section bar top, use assembled section bar as a dress trim cover, whole size grow, can satisfy the ultra-large type dress trim cover that the design size is 300-1000 mm, the sense of existence in global design rises, the sunshade area increases, the large-scale dress trim cover abduction width after throwing into the DB275, DB277 that the engineering project used, DB278 section bar equipment reaches 928mm, fixed connection end thickness reaches 200 mm. The first circular cavity can be a fixed circular cavity with the diameter larger than 120mm and is fixed in the decorative cover through a plurality of reinforcing ribs, the first circular cavity can be directly used as a rainwater drainage channel and can also be used for peripheral fixation of a rainwater drainage pipeline, if a plastic pipe with good acid and alkali resistance is recommended to be used in consideration of the corrosion effect of rainwater in a seaside or an area with serious air pollution (such as an area where acid rain easily occurs), the plastic pipe penetrates through the first circular cavity, and the first circular cavity can play good fixing, protecting and beautifying effects.

Drawings

FIG. 1 is a schematic view of a high-rise building facade decorative cover according to the present invention;

FIG. 2 is a schematic structural view of a central member of a high-rise building facade decorative cover of the present invention;

FIG. 3 is a schematic structural view of a connecting member of a high-rise building facade decorative cover according to the present invention;

FIG. 4 is a schematic structural view of an end member of a high-rise building facade decorative cover of the present invention;

FIG. 5 is a schematic structural view of a first communication pipe of a high-rise building facade decorative cover of the present invention;

FIG. 6 is a schematic structural view of a high-rise building facade decoration structure of the present invention;

fig. 7 is an enlarged view of a portion a of fig. 6.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the present invention will be described in further detail with reference to the accompanying drawings. Only this statement, the utility model discloses the upper and lower, left and right, preceding, back, inside and outside etc. position words that appear or will appear in the text only use the utility model discloses an attached drawing is the benchmark, and it is not right the utility model discloses a concrete restriction.

As shown in fig. 1 to 5, a first embodiment of the present invention provides a high-rise building facade decorative cover, which is composed of a plurality of decorative units arranged vertically, each decorative unit comprising a central member 1, connecting members 2 disposed at both sides of the central member 1, and end members 3 disposed at outer sides of the connecting members 2; the central component 1 is provided with a first quadrilateral outer frame 11 which is symmetrical left and right, the left side and the right side of the first quadrilateral outer frame 11 are provided with first sub-buckles 14, and a first circular cavity 12 is arranged in the first quadrilateral outer frame 11; the connecting component 2 comprises a second quadrilateral outer frame 21 with the section width gradually changing from left to right, a first female buckle 22 is arranged on the wider side of the second quadrilateral outer frame 21, and a second female buckle 23 is arranged on the narrower side; the end component 3 comprises a trapezoid main body 31 and an arc-shaped end 32, a second circular cavity 33 is arranged in the trapezoid main body 31, and a second sub-buckle 34 is arranged on the connecting surface of the trapezoid main body 31.

The assembly is connected through the syllogic to this embodiment, assemble each other with three cavity large cross section bars, with two points public female design between the section bar, it is fixed to penetrate from the section bar top, use assembled section bar as a dress trim cover, whole size grow, can satisfy the ultra-large type dress trim cover that the design size is 300-1000 mm, the sense of existence in global design rises, the sunshade area increases, the large-scale dress trim cover abduction width after throwing into the DB275, DB277 that the engineering project used, DB278 section bar equipment reaches 928mm, fixed connection end thickness reaches 200 mm. First circular chamber 12 can be the fixed circular cavity that the diameter is greater than 120mm, fixes in the dress trim cover through several strengthening ribs, first circular chamber 12 body both can directly be used as rainwater drainage channel, also can be used as rainwater drainage pipeline's peripheral fixed, if in seashore or the serious area of air pollution (for example the area that appears acid rain easily), consider the corrosive action of rainwater, propose to use the plastic tubing that acid and alkali resistance is good, follow pass in the first circular chamber 12 body, use under this kind of condition, first circular chamber 12 physical stamina plays fine fixed, protection, pleasing to the eye effect.

Preferably, the decoration units are vertically arranged, that is, a first communication pipe 13 is sleeved in the first circular cavity 12, and the decoration units are connected in series to keep the first circular cavities 12 of all the decoration units coaxial. A first inner groove 121 is vertically arranged in the first circular cavity 12, and a first convex strip 131 is arranged on the outer surface of the first communication pipe 13; when the first communication pipe 13 extends into the first circular cavity 12, the first protruding strip 131 is located in the first inner groove 121. The first communicating pipe 13 may be an extruded aluminum material, which may be directly used as a drainage pipe and as a rotating shaft for driving the decoration cover to integrally rotate.

Preferably, a second communication pipe 35 is nested inside the second circular chamber 33. The second circular cavity 33 is similar to the first communication pipe 13 in structure, and is provided with a second inner groove 331 arranged vertically, and the outer surface of the second communication pipe 35 is provided with a second convex strip; when the second communicating pipe 35 extends into the second circular cavity 33, the second protruding strip is located in the second inner groove 331. The second communicating pipe 35 can also be used as a drain pipe, and when the second communicating pipe is used for driving the decorative cover to rotate, a larger force arm can be provided by considering that the second communicating pipe has a larger moving stroke when rotating along with the decorative cover, so that the second communicating pipe can rotate more reliably and stably.

Accordingly, with reference to fig. 6, a second embodiment of the present invention provides a high-rise building facade decorative structure, comprising the high-rise building facade decorative covers as described above, the decorative covers being disposed at the periphery of the high-rise building facade at a predetermined distance from each other; the two ends of the decorative cover are provided with rotating mechanisms 4, and the rotating mechanisms 4 can drive the decorative cover to rotate by a preset angle; a first circular cavity 12 and a second circular cavity 33 are arranged in the decorative cover, the top of the first circular cavity 12 and/or the second circular cavity 33 is connected with a water outlet of the rainwater collecting mechanism, and the bottom of the first circular cavity 12 and/or the second circular cavity 33 is connected with a sewer.

Preferably, referring to fig. 7, the rotating mechanism 4 includes a bearing 41 for fixing the first communication pipe, a first gear 42 coaxially disposed at the bottom of the first communication pipe 13, a second gear 43 engaged with the first gear 42, and a reduction motor 44 fixedly connected to the second gear 43. In this embodiment, regard first communicating pipe 13 as pivot and power to reach the mechanism, slewing mechanism 4 can directly set up by first communicating pipe 13, and the structure is more compact, can consider to regard second communicating pipe 35 as the drain pipe this moment for drainage pipe keeps the certain distance with slewing mechanism 4, prevents the interact. Correspondingly, as another driving method, the first gear 42 may be disposed on the second communication pipe 35, and connected to the reduction motor 44, and a second gear 43 coaxial with the first communication pipe 13 is disposed, the second gear 43 is fixed, the first gear 42 is engaged with the second gear 43, and when the first gear 42 is driven to rotate, the decoration cover is driven to rotate.

In order to introduce rainwater of the balcony into the first circular cavity 12 and/or the second circular cavity 33, the rainwater collecting mechanism comprises a rainwater collecting pipe network, the rainwater collecting pipe network collects rainwater at all places of the balcony and collects the rainwater to the water outlet, and the water outlet is connected with the top of the first circular cavity 12 and/or the second circular cavity 33 through a hose.

Adopt this embodiment, the circular cavity of the interior cavity of dress trim cover section bar both can regard as rainwater delivery pipe, can regard as rainwater delivery pipe's fixed outer protection pipe again. The rain water drain is designed in the cavity of the decorative cover profile, hidden from the inside or outside of the building.

Finally, a third embodiment of the present invention provides a method for draining, shading and decorating a high-rise building, comprising:

1) vertically arranging the high-rise building facade decorative cover on the periphery of the high-rise building facade;

2) the decorative cover is driven by the rotating mechanism 4, so that the decorative cover can rotate by a preset angle according to requirements;

3) and connecting a rainwater collecting mechanism arranged on the roof of the high-rise building with the top end of the first communicating pipe 13 and/or the second communicating pipe 35 in the decorative cover, and guiding rainwater into a sewer by using the first communicating pipe 13 and/or the second communicating pipe 35.

Preferably, the method further comprises:

installing a wind speed sensor, a wind direction sensor and a light ray sensor on the high-rise building, and respectively acquiring wind speed, wind direction and light ray intensity values of the current high-rise building corresponding position;

calculating the rotation angle range A of the decorative cover according to the obtained light intensity numerical value; if 0 degree is the state that the decorative cover is vertical to the curtain wall, namely the state with the lowest sun-shading capability; 90 degrees is the state that dress trim cover and curtain are parallel, and dress trim cover covers the periphery of curtain basically completely this moment, can shelter from most sunshine. As a rough adjusting method, the angle of the decorative cover can be graded and linearly adjusted within 0-90 degrees according to the light intensity value, for example, the set illumination is divided into three grades within 30000-10000lx, 9999-5000lx and 4999-1000lx, and the opening angle of the corresponding decorative cover is 90-60 degrees, 59-30 degrees and 29-0 degrees. Furthermore, the angle of the decorative cover can be finely adjusted by combining the sun angle data of the current position and the current time.

The lighting problem of the high-rise building can be solved, and meanwhile, the air flow at the periphery of the high-rise building can be adjusted by the decorative cover, so that the air at the periphery of the high-rise building can be guided into each unit in the high-rise building through the window. The specific method comprises the following steps: judging whether the wind speed value is in the adjustable wind speed range, if so, adjusting the front direction of the decorative cover by using the rotating mechanism 4 in the rotating angle range A, and guiding the wind around the high-rise building into the building; if the wind speed is not in the adjustable wind speed range, the middle value is taken in the rotating angle range A, and the rotating mechanism 4 is utilized to adjust the front orientation of the decorative cover to the middle value.

By using the method, the decorative cover can be arranged on the periphery of the high-rise building, and the existing rainwater dredging problem is solved while the building air is promoted. On the other hand, the high-rise building decorative cover is long, so that the effect of adjusting indoor lighting and wind power can be realized. The method places lighting adjustment at the head, provides stable lighting for the indoor space by utilizing the rotation of the decorative cover, and is energy-saving and environment-friendly; under the condition that accords with the condition, the angle of further adjusting dress trim cover, with building outlying wind leading-in indoor, make indoor personnel can enjoy natural draft, improve personnel's in the building comfort level, also more environmental protection.

The foregoing is a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of improvements and decorations can be made without departing from the principle of the present invention, and these improvements and decorations are also considered as the protection scope of the present invention.

Claims (8)

1. A high-rise building facade decorative cover is characterized in that the facade decorative cover is formed by vertically arranging a plurality of decorative units, wherein each decorative unit comprises a central member, connecting members arranged at two sides of the central member and end members arranged at the outer sides of the connecting members;

the central component is provided with a first quadrilateral outer frame which is bilaterally symmetrical, the left side and the right side of the first quadrilateral outer frame are provided with first sub-buckles, and a first circular cavity is arranged in the first quadrilateral outer frame;

the connecting component comprises a second quadrilateral outer frame with the section width gradually changing from left to right, a first female buckle is arranged on the wider side of the second quadrilateral outer frame, and a second female buckle is arranged on the narrower side of the second quadrilateral outer frame;

the tail end component comprises a trapezoid main body and an arc-shaped tail end, a second circular cavity is arranged in the trapezoid main body, and a second sub-buckle is arranged on the connecting surface of the trapezoid main body.

2. The high-rise building facade decorative cover of claim 1, consisting of a plurality of decorative units arranged vertically, wherein a first communicating pipe is sleeved in a first circular cavity, the plurality of decorative units are connected in series, and the first circular cavities in all the decorative units are kept coaxial.

3. The high-rise building facade decorative cover according to claim 2, wherein a first inner groove is vertically arranged in the first circular cavity, and a first convex strip is arranged on the outer surface of the first communicating pipe; when the first connecting pipe extends into the first circular cavity, the first raised strip is positioned in the first inner groove.

4. The high-rise building facade decorative cover of claim 3, wherein a second communicating pipe is sleeved in the second circular chamber.

5. The high-rise building facade decorative cover according to claim 4, wherein a second inner groove is vertically arranged in the second circular cavity, and a second convex strip is arranged on the outer surface of the second communicating pipe; when the second communicating pipe extends into the second circular cavity, the second convex strip is positioned in the second inner groove.

6. A high-rise building facade decoration structure, comprising the high-rise building facade decoration covers according to any one of claims 1 to 5, which are provided at the periphery of the high-rise building facade at a predetermined distance from each other; the two ends of the decorative cover are provided with rotating mechanisms which can drive the decorative cover to rotate by a preset angle; the interior of the decorative cover is provided with a first round cavity and a second round cavity, the top of the first round cavity and/or the second round cavity is connected with a water outlet of the rainwater collecting mechanism, and the bottom of the first round cavity and/or the second round cavity is connected with a sewer.

7. A high-rise building facade decorative structure according to claim 6, wherein the rotating mechanism comprises a bearing for fixing the first communicating pipe, a first gear coaxially arranged at the bottom of the first communicating pipe, a second gear meshed with the first gear, and a speed reduction motor fixedly connected with the second gear.

8. The high-rise building facade decorative structure of claim 6, wherein the rainwater collection mechanism comprises a rainwater collection pipe network, the rainwater collection pipe network collects and collects rainwater all over the balcony to the water outlet, and the water outlet is connected with the top of the first circular cavity and/or the second circular cavity through a hose.

Images