CN112282154B - Curtain wall system capable of conducting water - Google Patents

Abstract

The invention discloses a water-conducting curtain wall system which comprises a plurality of curtain wall units connected in sequence, wherein each curtain wall unit comprises a first upright post, a second upright post, a top cross beam, a bottom cross beam and curtain wall glass; the curtain wall glass comprises a frame and a glass plate; the glass plates are obliquely arranged, so that rainwater on the glass plate of the previous curtain wall unit can fall onto the top cross beam of the next curtain wall unit; the top cross beam and the bottom cross beam of the adjacent curtain wall units are arranged in a matched mode, and the top cross beam comprises an external section and an embedded section; a cavity is arranged in the external section, the embedded section is arranged in the cavity, and a driving assembly is also arranged in the cavity and can drive the embedded section to rotate by a preset angle; the top surface of outside section bar leans out the setting, and its top surface is equipped with a plurality of holes that leak. By implementing the invention, rainwater can be used for watering indoor green plants.

Description

Curtain wall system capable of conducting water

Technical Field

The invention relates to the technical field of curtain walls, in particular to a curtain wall system capable of guiding water.

Background

High-rise office buildings generally adopt a curtain wall structure, and in order to relieve the pressure brought by work, the office buildings are generally provided with hollow plant galleries or gardens to build a relatively comfortable working environment. However, the hollow gallery and the garden are generally arranged on a relatively fixed floor, and workers in the high-rise office cannot feel the hollow gallery and the garden within the working time. If plants are placed in offices to create a relatively light environment, and a proper water supply irrigation system is not available, manual watering is required to increase labor cost and equipment cost, and untreated tap water is not favorable for the growth of plants due to the presence of a disinfectant component. And for the healthy growth of plant, set up the plant on the curtain wall or the window limit that have light, can let the plant obtain illumination as far as possible, and can not occupy the space in the office, arrange comparatively rationally.

The existing curtain wall is always to realize the air tightness between curtain wall units through various sealing structures for preventing water leakage and water seepage, and how to realize the collection of rainwater through curtain wall aluminum profiles is still the problem to be solved.

Disclosure of Invention

The technical problem to be solved by the invention is to provide a water-guiding curtain wall system, which can be used for irrigating indoor green plants by using rainwater.

In order to solve the technical problem, the invention provides a water-guiding curtain wall system which comprises a plurality of curtain wall units connected in sequence, wherein each curtain wall unit comprises a first upright post, a second upright post, a top cross beam, a bottom cross beam and curtain wall glass, wherein the first upright post, the second upright post, the top cross beam, the bottom cross beam and the curtain wall glass are connected with a civil engineering structure;

the curtain wall glass comprises a frame connected with the first upright post, the second upright post, the top cross beam and the bottom cross beam, and a glass plate connected with the frame; the glass plates are obliquely arranged, so that rainwater on the glass plate of the previous curtain wall unit can fall onto the top cross beam of the next curtain wall unit;

the top cross beam and the bottom cross beam of the adjacent curtain wall units are arranged in a matched mode, and the top cross beam comprises an external section and an embedded section which is movably arranged in the external section; a cavity is arranged in the external section, the embedded section is arranged in the cavity, and a driving assembly is also arranged in the cavity and can drive the embedded section to rotate by a preset angle; the top surface of the external section bar is obliquely arranged outwards, and a plurality of water leakage holes are formed in the top surface of the external section bar; the outer section bar is also provided with a drain hole;

the embedded section bar is provided with a water storage cavity connected with the water leakage hole, and a plurality of inner drain pipes and outer drain pipes connected with the water storage cavity, and the inner drain pipes and the outer drain pipes are communicated with the water leakage hole.

As an improvement of the technical scheme, a suspension arm is arranged on the inner top surface of the external section bar, the driving assembly comprises a rotating shaft hung on the suspension arm and a plurality of gears connected to the rotating shaft, and the rotating shaft can be driven to rotate by an external power element;

and a tooth-shaped part matched with the gear is arranged on the top surface of the water storage cavity.

As an improvement of the above technical solution, the tooth-shaped member includes a lock hook, and the lock hook is hung on the outer side of the gear;

the inner hook of the lock hook is provided with a toothed section matched with the gear.

As an improvement of the technical scheme, the water storage cavity is provided with an arc bottom surface, the inner cavity is provided with a support column, and the support column is connected with an arc groove matched with the arc bottom surface.

As an improvement of the technical scheme, a graphite lubricating layer is arranged on the top surface in the arc groove.

As an improvement of the technical scheme, the water storage cavity is further connected with a water guide part communicated with the water leakage hole, and the water guide part comprises a flexible connecting pipe connected with the external section bar and an inclined water guide cavity connected with the flexible connecting pipe.

As an improvement of the technical scheme, the plurality of the inner drain pipes are communicated with a water collecting device, and the water collecting device is communicated with an indoor water storage system.

As an improvement of the technical scheme, a water retaining strip and a first clamping bulge are arranged on the top surface of the external section bar, and the water retaining strip is positioned on the rear side of the water leakage hole;

the bottom cross beam is provided with a first clamping groove matched with the first clamping protrusion, and a plurality of first sealing pieces are arranged between the first clamping groove and the first clamping protrusion.

As an improvement of the technical scheme, the first stand column and the second stand column of the adjacent curtain wall units are clamped, a plurality of second clamping grooves are arranged on the first stand column, and a plurality of second clamping bulges are arranged on the second stand column;

and a plurality of second sealing pieces are arranged on the second clamping groove and the second clamping protrusion.

As an improvement of the above technical solution, locking devices are arranged between the first upright column, the second upright column, the top cross beam, the bottom cross beam and the frame.

The implementation of the invention has the following beneficial effects:

according to the invention, the adjacent curtain wall units are matched, the curtain wall glass of the upper curtain wall unit is obliquely arranged, and the top cross beam of the lower curtain wall unit is provided with the water leakage hole, so that rainwater enters through the water leakage hole. The top beam comprises an external section and an embedded section, and the water leakage hole is formed in the external section. The embedded section bar is internally provided with a water storage cavity, and has certain water storage capacity. The embedded section bar can also be driven to rotate by the driving assembly, so that the embedded section bar is arranged in an inward inclined manner, and water in the water storage cavity flows into an indoor green plant water supply system through the internal drainage pipe; or when the rainwater is very big, make embedded section bar lean out the setting to discharge the rainwater through arranging the water pipe outward, thereby avoid the rainwater too much to pour into.

Furthermore, the external section bar is hung on the gear through the lock hook, so that the external section bar can be prevented from being separated from the water storage cavity. The inner hook of the lock catch is provided with a toothed section meshed with the gear, so that the gear can drive the water storage cavity to rotate by a corresponding angle to drain rainwater in the water storage cavity.

Drawings

FIG. 1 is a simplified view of a curtain wall unit to which the present invention relates;

FIG. 2 is an assembled view of a top cross member and a bottom cross member in accordance with the present invention;

FIG. 3 is a half cross-sectional view of a top cross member and a bottom cross member in accordance with the present invention;

FIG. 4 is an enlarged view of portion A of FIG. 3;

FIG. 5 is an enlarged view of portion B of FIG. 3;

fig. 6 is an assembly view of a first upright and a second upright according to the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings. It is only noted that the invention is intended to be limited to the specific forms set forth herein, including any reference to the drawings, as well as any other specific forms of embodiments of the invention.

Referring to fig. 1 to 3, the invention provides a water-guiding curtain wall system, which comprises a plurality of curtain wall units 100 connected in sequence, wherein each curtain wall unit 100 comprises a first upright post 1, a second upright post 2, a top cross beam 3, a bottom cross beam 4 and curtain wall glass 5 connected with a civil engineering structure;

the curtain wall glass 5 comprises a frame 51 connected with the first upright post 1, the second upright post 2, the top cross beam 3 and the bottom cross beam 4, and a glass plate 52 connected with the frame 51; the glass plate 52 is obliquely arranged, so that rainwater on the glass plate 52 of the previous curtain wall unit 100 can fall onto the top cross beam 3 of the next curtain wall unit 100;

the top cross beam 3 and the bottom cross beam 4 of the adjacent curtain wall units 100 are arranged in a matching manner, and the top cross beam 3 comprises an external section 31 and an embedded section 32 which is movably arranged in the external section 31; a cavity 311 is arranged in the external section bar 31, the embedded section bar 32 is arranged in the cavity 311, a driving component 6 is also arranged in the cavity 311, and the driving component 6 can drive the embedded section bar 32 to rotate by a preset angle; the top surface of the external section bar 31 is inclined outwards, and the top surface thereof is provided with a plurality of water leakage holes 312; the outer section bar 31 is also provided with a drain hole 313;

the embedded profile 32 is provided with a water storage cavity 321 connected with the water leakage hole 312, and a plurality of inner drainage pipes 322 and outer drainage pipes 323 connected with the water storage cavity 321, wherein the inner drainage pipes 322 and the outer drainage pipes 323 are communicated with the water drainage holes 313.

Specifically, the first upright column 1, the second upright column 2, the top cross beam 3 and the bottom cross beam 4 enclose a mounting frame, and the curtain wall glass 5 is mounted on the mounting frame. The curtain wall glass 5 comprises a frame 51 connected with the mounting frame and a glass plate 52 arranged in the frame 51. For the purpose of facilitating water guiding, the glass panel 52 is disposed at an inclination so as to quickly guide rainwater to the curtain wall unit 100 below. In order to prevent water from entering from the top cross beam 3 and the bottom cross beam 4 of the adjacent units, the top cross beam 3 and the bottom cross beam 4 are arranged in a matching way. The top cross beam 3 is provided with an outer profile 31 and an inner profile 32 embedded in a cavity 311 of the outer profile 31. Wherein the top surface of said outer profile 31 is arranged inclined towards the outside, thereby avoiding that rain water is directly poured into the inside of the curtain wall. However, in order to make rainwater smoothly enter the embedded section bar 32, the top surface of the external section bar 31 is provided with water leakage holes 312, and water enters the embedded section bar 32 through the water leakage holes 312. The utility model discloses a water supply device, including outside section bar 31, embedded section bar 32, drive assembly 6, drive assembly 32 is equipped with cavity 311 in the outside section bar 31, embedded section bar 32 is installed in cavity 311, still be equipped with drive assembly 6 in the cavity 311, drive assembly 6 is through driving embedded section bar 32 wholly rotates to the incline direction and the inclination of adjustment embedded section bar 32 are with the dual function of realization to indoor water supply and to outdoor drainage. The embedded profile 32 is provided with a water storage cavity 321, and two ends of the water storage cavity 321 can be sealed by sealing plates or communicated with the embedded profile 32 in the next curtain wall unit 100. Two side surfaces of the water storage cavity 321 are provided with an inner water drainage pipe 322 and an outer water drainage pipe 323, the external section 31 is provided with a water drainage hole 313 matched with the inner water drainage pipe 322 and the outer water drainage pipe 323, and the inner water drainage pipe 322 and the outer water drainage pipe 323 penetrate through the water drainage hole 313 to be communicated with an external green plant water supply system or a drainage system. In order to solve the matching problem caused by the rotation of the embedded profile 32, the inner drain pipe 322 and the outer drain pipe 323 are detachably connected with the embedded profile 32, and the inner drain pipe 322 and the outer drain pipe 323 both comprise hose sections, so that when the embedded profile 32 rotates, no motion interference occurs.

Referring to fig. 3 to 5, a boom 314 is provided on the inner top surface of the outer profile 31, the driving assembly 6 includes a rotating shaft 61 hung on the boom 314 and a plurality of gears 62 connected to the rotating shaft 61, the rotating shaft 61 can be driven to rotate by an external power element 63; the top surface of the water storage cavity 321 is provided with a tooth-shaped member 33 matched with the gear 62. Specifically, the suspension arm 314 is disposed on the inner top surface of the outer section 31, and is disposed along the length direction of the outer section 31, a lock catch (not shown in the drawings) is detachably connected to the suspension arm 314, a bearing (not shown in the drawings) is disposed between the suspension arm 314 and the lock catch, and the rotating shaft 61 is disposed in the bearing. In this embodiment, the power member 63 includes a coupling 632 provided at one end of the rotating shaft 61, and a motor 631 connected to the coupling 632. The rotating shaft 61 is connected with a plurality of gears 62, the top surface of the water storage cavity 321 is provided with a tooth-shaped part 33, and the water storage cavity 321 is driven to rotate through the matching of the tooth-shaped part 33 and the gears 62.

It should be noted that, in order to improve the connection reliability between the water storage cavity 321 and the external profile 31, the tooth member 33 includes a lock hook 331, and the lock hook 331 is hung on the gear 62; the inner hook of the lock hook 331 is provided with a toothed section 332 adapted to the gear 62. Specifically, the lock hook 331 is hung on the gear 62, so that the outer profile 31 can be prevented from being separated from the water storage cavity 321. A toothed section 332 engaged with the gear 62 is disposed at an inner hook of the lock catch (not shown in the drawings), so that the gear 62 can drive the water storage cavity 321 to rotate by a corresponding angle, thereby draining rainwater in the water storage cavity 321. Further, the toothed segment 332 is externally provided with a locking bevel 333, and at the locking bevel 333, the gear 62 is disengaged from the toothed member 33 to form a mechanical limit between the toothed member 33 and the gear 62.

In addition, an arc bottom surface 324 is further arranged in the water storage cavity 321, a support column 316 is arranged in the cavity 311 of the external section bar 31, and an arc groove matched with the arc bottom surface 324 is connected to the support column 316. Specifically, the support column 316 is provided with the arc groove, the arc bottom surface 324 of the water storage cavity 321 is matched with the arc groove, and when the water storage cavity 321 rotates, the frictional resistance between the water storage cavity 321 and the external profile 31 can be reduced.

Further, a graphite lubricating layer (not shown in the attached drawings) is arranged on the top surface in the arc groove. The graphite lubricating layer can further reduce the frictional resistance between the water storage cavity 321 and the outer profile 31.

The water storage cavity 321 is further connected with a water guide part 35 communicated with the water leakage hole 312, and the water guide part 35 includes a flexible connecting pipe 351 connected with the external profile 31 and an inclined water guide cavity 352 connected with the flexible connecting pipe 351. Specifically, in order to facilitate the installation of the driving assembly 6, the outer profile 31 is composed of a trough body and a top plate detachably connected with the trough body. The water leakage hole 312 is formed in the top plate, an annular mounting plate is disposed on the back surface of the top plate, the flexible connecting pipe 351 is connected to the mounting plate, and the other end of the flexible connecting pipe 351 is connected to the inclined water guide cavity 352. When the embedded profile 32 rotates, the flexible connecting pipe 351 can bear torsional deformation, so that the collection of rainwater is not influenced.

The inner water drainage pipe 322 and the outer water drainage pipe 323 penetrate through the side wall of the outer section bar 31 to be connected with a water collecting device, the inner water drainage pipe 322 and the outer water drainage pipe 323 are connected with sealing elements 8, and the sealing elements 8 are used for sealing between the inner water drainage pipe 322 and the outer water drainage pipe 323 and the outer section bar 31.

The seal 8 prevents water from entering the interior of the top cross member 3 from the outside, see fig. 5. In this embodiment, the sealing member 8 is provided with an internal threaded hole 81, and the internal drainage pipe 322 and the external drainage pipe 323 are provided with external threads adapted to the internal threaded hole 81; an annular sealing groove 82 is formed in the bottom surface of the sealing element 8, and a sealing ring 83 is arranged in the annular sealing groove 82. Through the matching of the sealing element 8, the inner drainage pipe 322 and the outer drainage pipe 323, the sealing ring 83 can be tightly abutted against the side wall of the outer section 31, so as to play a role in sealing.

The top surface of the external section bar 31 is provided with a water bar 36 and a first clamping bulge 37, and the water bar 36 is positioned at the rear side of the water leakage hole 312; the bottom beam 4 is provided with a first clamping groove 41 matched with the first clamping protrusion 37, and a plurality of first sealing pieces 9 are arranged between the first clamping groove 41 and the first clamping protrusion 37. Specifically, the water bar 36 is disposed at the rear side of the water leakage hole 312, and the water bar 36 can prevent a large amount of rainwater from entering. For realizing the high-speed joint of bottom end rail 4 and top end rail 3, the top surface of top end rail 3 is equipped with first joint arch 37, first joint arch 37 can stretch into in the first joint recess 41, just be equipped with first seal groove on first joint arch 37's the left side wall and the right side wall, first sealing member 9 is installed in the first seal groove, first sealing member 9 with first joint recess 41 butt to the leakproofness of the junction of belling curtain wall unit 100 about improving.

Referring to fig. 6, the first upright post 1 and the second upright post 2 of adjacent curtain wall units 100 are clamped, a plurality of second clamping grooves 11 are arranged on the first upright post 1, and a plurality of second clamping protrusions 21 are arranged on the second upright post 2; and a plurality of second sealing pieces 10 are arranged on the second clamping groove 11 and the second clamping bulge 21. Through with the protruding 21 card of second joint is gone into in the second joint recess 11, the top surface and the bottom surface of the protruding 21 of second joint all are equipped with second seal groove 22, second sealing member 10 is established in second seal groove 22, second sealing member 10 with second joint recess 11 butt to the leakproofness of the junction of adjacent curtain wall unit 100 about improving.

In addition, locking device is including locating a plurality of first draw-in grooves 12 on first stand 1, the second stand 2, be equipped with in the first draw-in groove 12 and buckle 13, be equipped with on the frame 51 with the trip 511 of buckle 13 adaptation. Specifically, the first clamping groove 12 is arranged on the front end faces of the first upright post 1 and the second upright post 2, and the clamping buckle 13 can lock the clamping hook 511 on the frame 51, so that the frame 51 is quickly connected with the curtain wall glass 5. Further, the locking device further includes a plurality of second engaging grooves 38 disposed on the top cross beam 3, and the frame 51 is provided with a buckle 512 adapted to the second engaging grooves 38. The clip 512 includes an upward hook 512a and a positioning clip 512b to increase the stability of the connection between the top beam 3 and the rim 51. The locking device further comprises a plurality of grooves 42 formed in the bottom cross beam 4, and clamping protrusions 513 matched with the grooves 42 are arranged on the frame 51. The bottom beam 4 is prevented from being released from the frame 51 by the cooperation of the groove 42 and the clamping protrusion 513.

While the foregoing is directed to the preferred embodiment of the present invention, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention.

Claims (9)

1. A curtain wall system capable of guiding water is characterized by comprising a plurality of curtain wall units which are connected in sequence, wherein each curtain wall unit comprises a first upright post, a second upright post, a top cross beam, a bottom cross beam and curtain wall glass which are connected with a civil engineering structure;

the curtain wall glass comprises a frame connected with the first upright post, the second upright post, the top cross beam and the bottom cross beam, and a glass plate connected with the frame; the glass plates are obliquely arranged, so that rainwater on the glass plate of the previous curtain wall unit can fall onto the top cross beam of the next curtain wall unit;

the top cross beam and the bottom cross beam of the adjacent curtain wall units are arranged in a matched mode, and the top cross beam comprises an external section and an embedded section which is movably arranged in the external section; a cavity is arranged in the external section, the embedded section is arranged in the cavity, a driving assembly is also arranged in the cavity, the driving assembly can drive the embedded section to rotate by a preset angle so that the embedded section is inclined inwards, and water in the water storage cavity flows into an indoor green plant water supply system through an internal drainage pipe; the top surface of the external section bar is obliquely arranged outwards, and a plurality of water leakage holes are formed in the top surface of the external section bar; the outer section bar is also provided with a drain hole;

the embedded section is provided with a water storage cavity connected with the water leakage hole, and a plurality of inner drain pipes and outer drain pipes connected with the water storage cavity, and the inner drain pipes and the outer drain pipes are communicated with the water leakage hole;

the driving assembly comprises a rotating shaft and a plurality of gears, the rotating shaft is hung on the suspension arm, the gears are connected to the rotating shaft, and the rotating shaft can be driven to rotate through an external power element;

the top surface of the water storage cavity is provided with a tooth-shaped part matched with the gear, and the rotating shaft drives the water storage cavity to rotate through the matching of the tooth-shaped part and the gear.

2. The water deflector curtain wall system as in claim 1, wherein the tooth member comprises a lock hook mounted on an outer side of the gear;

the inner hook of the lock hook is provided with a toothed section matched with the gear.

3. The curtain wall system capable of guiding water according to claim 2, wherein the water storage cavity is provided with a circular arc bottom surface, the cavity is provided with a support column, and a circular arc groove matched with the circular arc bottom surface is connected to the support column.

4. The water deflector curtain wall system as in claim 3, wherein a graphite lubricant layer is provided on the top surface within the arcuate groove.

5. The water guide curtain wall system as claimed in claim 1, wherein the water storage cavity is further connected with a water guide part communicated with the water leakage hole, and the water guide part comprises a flexible connection pipe connected with the outer profile and an inclined water guide cavity connected with the flexible connection pipe.

6. The water deflector curtain wall system as in claim 5, wherein a plurality of the internal drainage tubes are in communication with a water collection device in communication with an indoor water storage system.

7. The water deflector curtain wall system as in claim 1, wherein the top surface of the outer profile is provided with a water bar and a first catching protrusion, the water bar being located at the rear side of the water leakage hole;

the bottom cross beam is provided with a first clamping groove matched with the first clamping protrusion, and a plurality of first sealing pieces are arranged between the first clamping groove and the first clamping protrusion.

8. The water guiding curtain wall system as claimed in claim 1, wherein the first and second uprights of adjacent curtain wall units are clamped, the first upright is provided with a plurality of second clamping grooves, and the second upright is provided with a plurality of second clamping protrusions;

and a plurality of second sealing pieces are arranged on the second clamping groove and the second clamping protrusion.

9. The water deflector curtain wall system as in claim 1, wherein locking devices are disposed between the first and second uprights, top and bottom cross-members and the jamb.

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