CN209924216U - Drainage system is collected to unit glass curtain wall rainwater - Google Patents

Abstract

The utility model provides a discharge system is collected to unit glass curtain wall rainwater, include: an outer curtain wall, an inner curtain wall, a rainwater collecting vertical pipe, a downpipe, a stainless steel water tank and a rainwater channel, wherein the rainwater channel (9) is arranged between a first outer vertical surface decorative stone (10) and a second outer vertical surface decorative stone (11) and communicated with the stainless steel water tank (7), a grate (8) is arranged in the middle inside the stainless steel water tank (7), the rainwater collecting device is connected with a vertically arranged rainwater collecting vertical pipe and comprises a downpipe (5), a first rainwater collecting vertical pipe (3) below a rainwater collecting vertical pipe connector, a second rainwater collecting vertical pipe (16) and a third rainwater collecting vertical pipe (18) above the downpipe and the rainwater collecting vertical pipe (16), wherein the second rainwater collecting vertical pipe (16) and the third rainwater collecting vertical pipe (18) are connected through a bell and spigot (15) internally provided with an ethylene propylene diene monomer rubber strip (17), and a heat-insulating decorative material in a window sash form is opened to enable a rainwater channel (9) to form an air channel at the same time.

Description

Drainage system is collected to unit glass curtain wall rainwater

Technical Field

The utility model relates to an architectural decoration and building plumbing field, concretely relates to building curtain decorates technology and building rainwater and collects discharge system technical field.

Background

With the development of society, glass curtain walls are more and more widely applied to buildings such as high-grade office buildings, hotels and the like, and unit glass curtain wall systems are also widely applied. The unitized curtain wall is a curtain wall type with the highest processing degree in a factory, and the closed state can be realized by directly installing the processed unitized plates on a support system after the processed unitized plates are transported to the site. If the node design of the unitized curtain wall has problems, the construction site can not be treated basically. The unitized curtain wall utilizes the isobaric principle, through the plug-in of curtain main, crossbeam, forms inside and outside two cavitys, and inside and outside chamber reaches isobaric through the outlet of curtain crossbeam, and under the effect of not having the pressure differential, the rainwater can not get into the inner chamber, but at outdoor wind pressure change transient, inside and outside chamber exist the pressure differential. In the traditional unit curtain wall system, the inner cavity and the outer cavity of the upper beam of the unit are directly communicated through the drain hole and are basically at the same elevation, rainwater enters the inner cavity from the outer cavity along the drain hole under the action of pressure difference, and when more rainwater enters the inner cavity, the rainwater possibly seeps into the chamber from the inner layer sealing rubber strip; in the organized drainage unit curtain wall system, the inner cavity and the outer cavity are not directly communicated, but a transverse drainage pipe is arranged at the cross beam of the upper unit, the leakage water entering the inner cavity is drained to the transverse drainage pipe through a drainage hole, and then is drained to the outer cavity of the upper cross beam of the lower unit along the outer vertical cavity of the main beam through a drainage hole to be drained outwards, and the waterproof performance of the curtain wall system can be improved through organized drainage. Therefore, the collection and drainage problems of rainwater of the unit type glass curtain wall are not ideal in engineering practice due to the self construction of the unit type glass curtain wall.

For a unit type glass curtain wall system, the glass curtain wall is arranged according to units, and decorations such as stones are arranged between the units. The stone with the flat plate is always accumulated with dust for a long time, and after being drenched, if rainwater is not discharged in time, the rainwater can flow down along the outer vertical surface to pollute the outer curtain wall.

Disclosure of Invention

In order to overcome the above-mentioned problem that prior art exists, the utility model provides a discharge system is collected to unitized glass curtain wall rainwater utilizes unitized curtain wall structure characteristics under the prerequisite of guaranteeing the pleasing to the eye effect of curtain, at inside stainless steel basin and the stainless steel pipe in the water of setting up of stone material unit plate, collects the rainwater and discharges away.

An object of the utility model is to provide a discharge system is collected to unit glass curtain wall rainwater, include: outer curtain (1), inlayer curtain (2), the riser is collected to the rainwater, pipe in the water (5), stainless steel basin (7) and rainwater passageway (9), rainwater passageway (9) set up and decorate between stone material (10) and the second outer facade decoration stone material (11) at first outer facade, rainwater passageway (9) with stainless steel basin (7) intercommunication, stainless steel basin (7) with the rainwater is collected the riser and is connected.

Preferably, the rainwater collection vertical pipe is vertically arranged and comprises a first rainwater collection vertical pipe (3), a second rainwater collection vertical pipe (16) and a third rainwater collection vertical pipe (18), wherein the first rainwater collection vertical pipe (3) is arranged below the downpipe (5) and the rainwater collection vertical pipe joint, and the second rainwater collection vertical pipe (16) and the third rainwater collection vertical pipe (18) are of standard length and are arranged above the downpipe (5) and the rainwater collection vertical pipe joint.

Preferably, the second rainwater collecting vertical pipe (16) and the third rainwater collecting vertical pipe (18) are connected with each other through a socket (15).

Preferably, an ethylene propylene diene monomer rubber strip (17) is arranged in the socket (15) for sealing.

Preferably, the downpipe (5) is connected with the first rainwater collecting vertical pipe (3) through a stainless steel tee joint (4).

Preferably, a grate (8) is arranged in the middle of the inside of the stainless steel water tank (7).

Preferably, a first heat-insulation decorative material (6) is further arranged on the outer sides of the first outer facade decorative stone (10) and the second outer facade decorative stone (11), and the first heat-insulation decorative material (6) is made into an openable window sash form, so that the rainwater channel (9) simultaneously forms an air channel to achieve natural ventilation reservation conditions for buildings.

Preferably, an outer vertical face decoration groove (14) is formed between the first outer vertical face decoration stone (10) and the second outer vertical face decoration stone (11), and an outer decoration project can be simultaneously arranged at the position of an inner flat plate of the outer vertical face decoration groove (14).

Preferably, a second heat-insulating decorative material (12) is further arranged on the outer sides of the first outer facade decorative stone (10) and the second outer facade decorative stone (11).

Preferably, the external decoration project is a light project (13).

The utility model discloses compare prior art's beneficial effect:

1. the problem of the outer curtain wall of unit curtain wall outside stone material flat board long-term deposition, after drenching with the rain, the rainwater flows down along outer facade, causes the pollution is solved.

2. To unit glass curtain wall building, this system make full use of unit curtain wall structural feature, the rainwater is collected the discharge tube and is all set up in the stone material plate, does not influence the pleasing to the eye effect of building completely.

3. The rainwater collecting and discharging systems are all outside the building enclosure structure, and no civil pipe well is needed, so that the internal space of the building is not occupied, the manufacturing cost is saved, and the building area and space are saved.

4. The rainwater channel of the system can be simultaneously used as an air channel to realize natural ventilation reservation conditions for the building.

5. The flat plate position in the stone groove of the system can be simultaneously provided with external decoration projects such as light projects, and the structural characteristics of the unit type curtain wall are fully utilized on the premise of not influencing the effects of rainwater collection and drainage and light projects.

6. Compared with other unit type curtain wall rainwater collecting and discharging modes, the method is simple in structure, convenient to construct, low in cost and easy to popularize.

The above and other objects, advantages and features of the present invention will become more apparent to those skilled in the art from the following detailed description of specific embodiments thereof, taken in conjunction with the accompanying drawings.

Drawings

Some specific embodiments of the present invention will be described in detail hereinafter, by way of illustration and not by way of limitation, with reference to the accompanying drawings. The same reference numbers in the drawings identify the same or similar elements or components. Those skilled in the art will appreciate that the drawings are not necessarily drawn to scale. The objects and features of the present invention will become more apparent in view of the following description taken in conjunction with the accompanying drawings, in which:

FIG. 1 is a schematic view of a rainwater collecting and draining system of a unit type glass curtain wall according to an embodiment of the present invention;

FIG. 2 is a schematic view of a node design of a rainwater collection and drainage system of a unit glass curtain wall according to an embodiment of the present invention;

fig. 3 is a three-dimensional schematic view of a rainwater collection and drainage system for a unit type glass curtain wall according to the embodiment of the utility model.

Wherein, the reference numbers:

1 outer curtain wall

2 inner curtain wall

3 first rainwater collecting vertical pipe

4 stainless steel tee joint

5 downpipe

6 first heat-insulating decorative material

7 stainless steel water tank

8 double-edged fine-toothed comb

9 rain water channel

10 first facade decorative stone

11 second outer vertical face decorative stone

12 second heat-insulating decorative material

13 light engineering

14 outer facade decorative groove

15 socket and spigot joint

16 second rainwater collecting riser

17 ethylene propylene diene monomer rubber strip

18 third rainwater collecting riser

Detailed Description

The following detailed description of the embodiments of the present invention is provided with reference to the accompanying drawings, which are not intended to limit the scope of the invention.

Referring to fig. 1-3, the utility model discloses a discharge system is collected to unit glass curtain wall rainwater, include: the outer curtain wall 1, the inner curtain wall 2, the rainwater collection stand pipe, the downpipe 5, the stainless steel water tank 7 and the rainwater channel 9, the rainwater channel 9 is arranged between the first outer facade decoration stone 10 and the second outer facade decoration stone 11, the rainwater channel 9 is communicated with the stainless steel water tank 7, and the stainless steel water tank 7 is connected with the rainwater collection stand pipe.

The rainwater collection vertical pipe is vertically arranged and comprises a first rainwater collection vertical pipe 3, a second rainwater collection vertical pipe 16 and a third rainwater collection vertical pipe 18, wherein the first rainwater collection vertical pipe 3 is arranged below the downpipe 5 and the rainwater collection vertical pipe connector, and the second rainwater collection vertical pipe 16 and the third rainwater collection vertical pipe 18 are of standard lengths and are arranged above the downpipe 5 and the rainwater collection vertical pipe connector. Thereby meeting the requirements of different rainwater water collection amounts and meeting the requirements of collection and drainage. Wherein the second rainwater collecting vertical pipe 16 and the third rainwater collecting vertical pipe 18 are connected with each other through the socket 15. An ethylene propylene diene monomer rubber strip 17 is arranged in the socket 15 for sealing. The downpipe 5 is connected with the first rainwater collecting vertical pipe 3 through a stainless steel tee joint 4.

The middle part in the stainless steel water tank 7 is provided with a grate 8.

The first heat-preservation decorative material 6 is arranged on the outer sides of the first outer vertical face decorative stone 10 and the second outer vertical face decorative stone 11, the first heat-preservation decorative material 6 is made into an openable window sash form, and the rainwater channel 9 simultaneously forms an air channel to realize natural ventilation reservation conditions for the building.

An outer vertical face decorative groove 14 is arranged between the first outer vertical face decorative stone 10 and the second outer vertical face decorative stone 11, and an outer decorative project such as a lighting project can be simultaneously arranged at the inner flat position of the outer vertical face decorative groove (14). And a second heat-insulating decorative material 12 is arranged outside the first outer facade decorative stone 10 and the second outer facade decorative stone 11, so that the functions of heat insulation and decoration outside ventilation are realized.

The working mode of the system is as follows: in rainy weather, dust can accumulate on the stone slab in the facade decorative groove 14. After rain, the deposited dust enters the stainless steel water tank 7 along with rainwater through the rainwater channel 9 between the outer vertical surface decorative stone 10 and the outer vertical surface decorative stone 11, and after the stainless steel water tank 7 collects rainwater, the rainwater carries dust to enter the grate 8, enters the rainwater collection vertical pipe 3 through the downpipe 5, is discharged to the bottom of the building and enters a rainwater collection facility, so that the rainwater on the outer vertical surface of the building is discharged. The downpipe 5 is connected with the rainwater collecting vertical pipe 3 through a stainless steel tee joint 4. The rainwater collecting vertical pipe 16 is connected with the rainwater collecting vertical pipe 18 through a socket 15, and an ethylene propylene diene monomer rubber strip 17 is arranged in the socket 15 for sealing.

The rainwater channel 9 is arranged between the outer vertical surface decorative stone 10 and the outer vertical surface decorative stone 11, so that birds, large winged insects, large floating pollutants and the like can be prevented from entering the stainless steel water tank 7, and further blocking the grate 8 and the downpipe 5. When the heat-insulating decorative material 6 is made into an openable window sash, the rainwater channel 9 can be simultaneously used as an air channel to realize the natural ventilation reservation condition for the building.

The embodiment solves the problem that the external stone slab of the unit curtain wall is accumulated with dust for a long time, and rainwater flows down along the external vertical surface after being drenched, so that the external curtain wall is polluted. The system makes full use of the characteristics of the unitized curtain wall structure, and the rainwater collecting and discharging pipelines are arranged inside the stone plate and outside the building enclosure structure, so that the building attractive effect is not influenced, and meanwhile, a civil engineering pipe well is not required to be arranged, the internal space of the building is not occupied, the manufacturing cost is saved, and the building area and the space are saved. And the rainwater channel of the system can be used as an air channel to realize natural ventilation reservation conditions for the building. The flat plate position in the stone groove of the system can be simultaneously provided with external decoration projects such as light projects, and the structural structure of the unit curtain wall is fully utilized on the premise of not influencing the effects of rainwater collection and drainage and light projects. Compared with other unit type curtain wall rainwater collecting and discharging modes, the method is simple in structure, convenient to construct, low in cost and easy to popularize.

The technical solutions provided by the embodiments of the present invention are described in detail above, and the principles and embodiments of the present invention are explained herein by using specific examples, and the descriptions of the above embodiments are only applicable to help understand the principles of the embodiments of the present invention; meanwhile, a person skilled in the art can change the embodiments and the application ranges according to the embodiments of the present invention, and in summary, the content of the present specification should not be construed as a limitation to the present invention.

Claims (10)

1. The utility model provides a drainage system is collected to unitized glass curtain wall rainwater which characterized in that includes: outer curtain (1), inlayer curtain (2), the riser is collected to the rainwater, pipe in the water (5), stainless steel basin (7) and rainwater passageway (9), rainwater passageway (9) set up and decorate between stone material (10) and the second outer facade decoration stone material (11) at first outer facade, rainwater passageway (9) with stainless steel basin (7) intercommunication, stainless steel basin (7) with the rainwater is collected the riser and is connected.

2. The rainwater collecting and draining system for unit glass curtain wall as claimed in claim 1, wherein: the rainwater collection vertical pipe is vertically arranged and comprises a first rainwater collection vertical pipe (3), a second rainwater collection vertical pipe (16) and a third rainwater collection vertical pipe (18), wherein the first rainwater collection vertical pipe (3) is arranged below the downpipe (5) and the rainwater collection vertical pipe connector, and the second rainwater collection vertical pipe (16) and the third rainwater collection vertical pipe (18) are of standard lengths and are arranged above the downpipe (5) and the rainwater collection vertical pipe connector.

3. The rainwater collecting and draining system for unit glass curtain wall as claimed in claim 2, wherein: the second rainwater collecting vertical pipe (16) and the third rainwater collecting vertical pipe (18) are connected with each other through a socket (15).

4. The rainwater collecting and draining system for unit glass curtain wall as claimed in claim 3, wherein: an ethylene propylene diene monomer rubber strip (17) is arranged in the socket (15) for sealing.

5. The rainwater collecting and draining system for unit glass curtain wall as claimed in claim 2, wherein: the downpipe (5) is connected with the first rainwater collecting vertical pipe (3) through a stainless steel tee joint (4).

6. The rainwater collecting and draining system for unit glass curtain wall as claimed in claim 1, wherein: the stainless steel water tank (7) is internally provided with a grate (8) in the middle.

7. The rainwater collecting and draining system for unit glass curtain wall as claimed in claim 1, wherein: the first heat-insulation decorative material (6) is arranged on the outer sides of the first outer vertical face decorative stone (10) and the second outer vertical face decorative stone (11), and the first heat-insulation decorative material (6) is made into an openable window sash form, so that the rainwater channel (9) simultaneously forms an air channel to realize natural ventilation reservation conditions for buildings.

8. The rainwater collecting and draining system for unit glass curtain wall as claimed in claim 1, wherein: an outer vertical face decoration groove (14) is formed between the first outer vertical face decoration stone (10) and the second outer vertical face decoration stone (11), and an outer decoration project can be simultaneously arranged at the inner flat plate position of the outer vertical face decoration groove (14).

9. The rainwater collecting and draining system for unit glass curtain wall as claimed in claim 1, wherein: and a second heat-insulating decorative material (12) is further arranged on the outer sides of the first outer facade decorative stone (10) and the second outer facade decorative stone (11).

10. The rainwater collecting and draining system for unit glass curtain wall as claimed in claim 8, wherein: the external decoration project is a light project (13).

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