CN215167313U - Concealed drainage system arranged on streamer appearance building - Google Patents

Abstract

The utility model discloses a set up the architectural hidden drainage system in ribbon appearance establishes on the roof, and the roof includes roofing and support column, and drainage system includes roofing water collecting structure and indoor structure of falling into water, and roofing water collecting structure establishes on the roofing, and indoor structure of falling into water establishes on the support column, and roofing water collecting structure and indoor structural connection of falling into water, indoor structure of falling into water and underground sump pit are connected. The utility model arranges the roof water collecting structure at the position on the roof where water is easy to accumulate to collect rainwater uniformly, and then discharges the rainwater by hiding the indoor water falling structure arranged on the supporting column, thereby ensuring the safety of the building structure by timely draining the accumulated water on the roof and avoiding the damage to the building aesthetic property; the drainage system adopts the sectional preassembly and then carries out the splicing connection mode, thereby not only ensuring the advantages of integral connection and rapid construction of preassembly construction, but also avoiding the problem of resource waste caused by repeated construction and simultaneously ensuring the aesthetic property of an indoor structure.

Description

Concealed drainage system arranged on streamer appearance building

Technical Field

The utility model relates to a construction technical field, concretely relates to set up at architectural hidden drainage system of ribbon appearance.

Background

With the development of economy, the requirements for the appearance of buildings are higher and higher, and the aesthetic feeling of the appearance of the buildings is required. Ribbon-shaped buildings are increasingly popular with designers and owners as a new appearance.

The building of ribbon appearance is the special-shaped structural plane in order to embody the mobility of ribbon to building itself is the shell structure who has super large-scale space, and this type of structure is very pleasing to the eye in the outward appearance, but the drainage is comparatively difficult, very easily ponding leads to the roofing structure potential safety hazard to appear.

In order to ensure safety, rainwater on a roof needs to be drained as soon as possible, the building appearance limitation cannot adopt a conventional drainage mode, indoor drainage needs to be adopted for auxiliary drainage, but the indoor drainage has great damage to the building attractiveness, and the auxiliary drainage needs to be carried out while indoor landscape is guaranteed as much as possible. The utility model provides a hidden drainage system of setting on ribbon appearance building solves above-mentioned problem.

SUMMERY OF THE UTILITY MODEL

The utility model provides a set up the architectural hidden drainage system of banderol appearance realizes indoor supplementary drainage when guaranteeing pleasing to the eye, compromises pleasing to the eye and security.

The utility model provides a technical scheme that above-mentioned technical problem adopted is:

a hidden drainage system arranged on a building with a shape of a ribbon is arranged on a roof, the roof comprises a roof and a support column, and comprises a roof water collecting structure and an indoor water falling structure, wherein the roof water collecting structure is arranged on the roof;

the indoor water falling structure comprises rainwater pipes, a connecting bent pipe and a collecting pipe, wherein the connecting bent pipe is arranged between the adjacent rainwater pipes, and the collecting pipe is arranged at the top end of each rainwater pipe and connected with the roof water collecting structure.

Furthermore, the roof water collecting structure is arranged on the roof at intervals and comprises a rain gutter, a downpipe and a water pipe device, the rain gutter is arranged on the roof, the downpipe is arranged on the lower portion of the rain gutter, and the water pipe device is arranged at the bottom end of the downpipe and connected with the collecting pipe.

Furthermore, the rainwater tank is positioned in the structure of the roof and comprises a water permeable cover plate and a water collecting tank, the water permeable cover plate is positioned at the top of the water collecting tank and is flush with the roof, and the downpipe is arranged at the bottom of the water collecting tank;

the water pipe device comprises a water pipe and a rotary hanging bracket, the rotary hanging bracket is fixedly connected to the roof, one end of the water pipe is connected to the downpipe, and the other end of the water pipe is connected with the collecting pipe.

Further, the support column includes one-level node, one-level post, second grade node and second grade post from bottom to top one by one, the downspout is established on one-level post and second grade post, connecting bend establishes on the second grade node.

Furthermore, the rainwater pipe and the connecting bent pipe are arranged on the supporting column along with the shape, and the supporting column is of a fork-shaped structure; the rainwater pipe is fixed on the supporting column through the mounting bracket.

Further, rotatory gallows includes bearing base, support cross arm, suspension pole and pipe strap, the bearing base rotates to be connected on supporting the cross arm, support the cross arm and connect on the roofing through hanging in midair the pole, the pipe strap is established on the bearing base, the raceway passes through the pipe strap to be fixed on the bearing base.

Furthermore, the bearing base is connected to the supporting cross arm through a rotating shaft, two ends of the supporting cross arm extend out of the bearing base, and the suspension rods are arranged at two ends of the supporting cross arm.

Further, the pipe clamps are arranged on the bearing base at intervals, and the pipe clamps are arranged in rows.

Furthermore, a stacking sleeve is arranged on the suspension rod and sleeved on the suspension rod.

The utility model discloses beneficial effect as follows:

a roof water collecting structure is arranged at a position on a roof where water is easy to accumulate, rainwater is collected uniformly, then the rainwater is discharged by hiding an indoor water falling structure arranged on a supporting column, the water accumulated on the roof is discharged in time, the safety of a building structure is guaranteed, and the damage to the building attractiveness is avoided;

the drainage system adopts the sectional preassembly and then carries out the splicing connection mode, thereby not only ensuring the advantages of integral connection and rapid construction of preassembly construction, but also avoiding the problem of resource waste caused by repeated construction and simultaneously ensuring the aesthetic property of an indoor structure.

Drawings

Fig. 1 is a schematic top view of the overall structure of the present invention;

FIG. 2 is a schematic side view of the overall structure of the present invention;

FIG. 3 is a schematic view of the position of the drainage system according to the present invention;

FIG. 4 is a front view of the drainage system of the present invention in the installed position;

FIG. 5 is a schematic structural view of the drainage system of the present invention;

FIG. 6 is a schematic view of the roof water collecting structure of the present invention;

fig. 7 is a schematic structural view of the water pipe device of the present invention;

fig. 8 is a schematic top view of the water pipe device of the present invention.

Reference numerals: 1-a roof water collecting structure, 11-a rain gutter, 12-a downpipe, 13-a water conveying pipe device, 131-a water conveying pipe, 132-a bearing base, 133-a supporting cross arm, 134-a suspension rod, 135-a pipe clamp, 136-a rotating shaft, 2-an indoor downpipe structure, 21-a rain pipe, 22-a connecting bent pipe, 23-a collecting pipe, 3-a roof, 4-a supporting column, 41-a primary node, 42-a primary pole, 43-a secondary node and 44-a secondary pole.

Detailed Description

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

In the description of this patent, it is to be understood that the terms "center," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in the orientations and positional relationships indicated in the drawings for the convenience of describing the patent and for the simplicity of description, and are not intended to indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and are not to be considered limiting of the patent.

The utility model discloses what use is steel aluminium combination formula roof of ribbon appearance, its appearance formula ribbon shape as an organic whole, length 105m, widest department 47.5m, height 24m, belong to large-scale roof structure, the roofing is the ribbon form of fluctuation, its top surface is dull and stereotyped latticed shell structure, great with traditional arch shell formula roofing structural difference, very easily store a large amount of pondings in the lower of ribbon form roofing, bring very big potential safety hazard to the roof structure, and in order to guarantee the aesthetic property of building, can't set up obvious drainage structures indoor and assist the drainage, consequently the utility model discloses rely on indoor architectural structure of itself to set up hidden drainage system, with roofing ponding via indoor discharge, both guarantee the security, do not encircle the aesthetic property of building itself again.

As shown in fig. 1, 2, 3, 4, a set up at the architectural hidden drainage system of ribbon appearance, establish on the roof, the roof includes roofing 3 and support column 4, including roofing collection water structure 1 and the indoor structure 2 that falls into water, roofing collection water structure 1 is established on roofing 3, the indoor structure 2 that falls into water is established on support column 4, roofing collection water structure 1 is connected with indoor structure 2 that falls into water, indoor structure 2 that falls into water is connected with secret sump pit.

The utility model discloses rely on crotch form support column 4 of support roofing to support as the drainage support to regard the appearance of support column 4 as the drainage route, hide indoor structure 2 of falling into water at support column 4 structurally completely, in order to guarantee indoor structure's aesthetic property.

As shown in fig. 3 and 5, the indoor downpipe structure 2 includes a rain pipe 21, a connection bent pipe 22 and a collecting pipe 23, the connection bent pipe 22 is disposed between adjacent rain pipes 21, and the collecting pipe 23 is disposed on the top end of the rain pipe 21 and connected to the roof water collecting structure 1.

Preferably, the connecting elbow 22 and the collecting pipe 23 are both special-shaped members, and the shapes of the connecting elbow and the collecting pipe are adapted to the shape of the supporting column 4, so as to ensure that the connecting elbow and the collecting pipe can be hidden on the supporting column 4 after installation, and ensure the attractiveness.

As shown in fig. 1 and 6, further, the roof water collecting structure 1 is arranged on the roof 3 at intervals, and includes a rain gutter 11, a downpipe 12 and a water pipe device 13, the rain gutter 11 is arranged on the roof 3, the downpipe 12 is arranged at the lower portion of the rain gutter 11, and the water pipe device 13 is arranged at the bottom end of the downpipe 12 and connected to the collecting pipe 23.

Rainwater on the roof flows to the lowest part of the roof, is collected by the rainwater tank 11 and then is discharged along the downpipes 12, and accumulated water in each downpipe 12 is collected into the collecting pipe 23 through the water conveying pipe device 13 and then enters the rainwater pipe 21 through the collecting pipe 23 to be discharged.

As shown in fig. 4, preferably, the roof water collecting structures 1 are arranged at intervals and are arranged in a row, the indoor water falling structures 2 are arranged in two rows, the two indoor water falling structures 2 are supported on the two crotch-shaped supporting columns respectively to realize hidden drainage, one indoor water falling structure 2 is communicated with the three roof water collecting structures 1 on one side to drain water, and the other indoor water falling structure 2 is communicated with the four roof water collecting structures 1 on the other side to drain water.

As shown in fig. 6, the rain gutter 11 is located in the structure of the roof 3, and includes a water permeable cover plate and a water collecting gutter, the water permeable cover plate is located at the top of the water collecting gutter and is flush with the roof 3, and the downpipe 12 is located at the bottom of the water collecting gutter.

Preferably, the water collecting tank is of a sunken structure and is arranged in the roof structure and used for collecting roof rainwater and discharging the roof rainwater through the downpipe 12; the water-permeable cover plate is flush with the roof, so that rainwater can conveniently enter the water collecting tank through the holes.

As shown in fig. 7 and 8, further, the water pipe device 13 includes a water pipe 131 and a rotary hanger, the rotary hanger is fixedly connected to the roof 3, one end of the water pipe 131 is connected to the downpipe 12, the other end of the water pipe is connected to the collecting pipe 23, and the water pipe 131 is hung on the roof through the rotary hanger arranged at intervals.

Because roofing collection water structure 1 interval sets up to only utilize two spinal branch daggers 4 to be used for the drainage, need collect the rainwater in the roofing collection water structure 1 that the interval set up through raceway 131, then in unified row to indoor structure 2 of falling into water. Due to the limitation of the special-shaped roof structure, the traditional water pipe hanging bracket has the defects that the position of an acting point is limited, and the pipeline laying axis is not perpendicular to the cross arm of the supporting and hanging bracket. Especially the utility model discloses the special construction of well pressure manifold 23 and the restriction to interface angle need raceway 131 and the accurate butt joint of pressure manifold 23, and then need guarantee raceway 131's installation accuracy, and traditional water pipe gallows can't satisfy above-mentioned butt joint precision, consequently sets up rotatory gallows that can rotate, satisfies raceway 131's hoist and mount demand through adjustment butt joint angle.

As shown in fig. 7 and 8, the rotary hanger includes a support base 132, a support cross arm 133, a hanging rod 134 and a pipe clamp 135, the support base 132 is rotatably connected to the support cross arm 133, the support cross arm 133 is connected to the roof 3 through the hanging rod 134, the pipe clamp 135 is disposed on the support base 132, and the water pipe 131 is fixed to the support base 132 through the pipe clamp 135.

As shown in fig. 7, the support base 132 is connected to a support cross arm 133 through a pivot 136, both ends of the support cross arm 133 extend out of the support base 132, and the suspension rods 134 are provided at both ends of the support cross arm 133.

Bearing base 132 is connected on supporting cross arm 133 through pivot 136, realizes the adjustment to raceway 131 installation angle through rotating bearing base 132, satisfies various installation angle, solves raceway 131 installation angle's error to avoid a gallows impetus position to be limited, the pipeline lays the defect under the axis and a gallows cross arm out of plumb condition.

Further, the pipe clamps 135 are arranged on the supporting base 132 at intervals, and the pipe clamps 135 are arranged in rows and have different inner diameters. The pipe clamps 135 arranged at intervals can arrange a plurality of pipelines in a row and are suitable for various pipe diameters.

Further, a stacking sleeve is disposed on the suspension rod 134, and the stacking sleeve is sleeved on the suspension rod 134. After the stacked sleeves are sleeved on the suspension rods 134, the support cross arms 133 can be installed on the stacked sleeves, the upper and lower layers of the support cross arms 133 are separated by the stacked sleeves, and then a layer of bearing base 132 is installed on the upper support cross arm 133 to continuously place the water delivery pipe 131, so that the purpose of arranging multiple layers of bearing bases 132 on one group of suspension rods 134 at intervals up and down is achieved, and interference between pipelines is avoided.

Preferably, the support base 132 is a disk structure and the suspension rods 134 are threaded rods.

As shown in fig. 3, the supporting column 4 sequentially includes a primary node 41, a primary pole 42, a secondary node 43, and a secondary pole 44 from bottom to top, the rain pipe 21 is disposed on the primary pole 42 and the secondary pole 44, and the connecting elbow 22 is disposed on the secondary node 43.

The sectional installation of the support column 4 can effectively save the construction cost and the construction safety, and in order to match the installation and construction of the support column 4, two sections of rainwater pipes 21 are arranged and connected by adopting the connecting bent pipe 22 to form a continuous drainage pipe.

Preferably, the rain pipe 21 is provided with two sections which are respectively arranged on the primary pole 42 and the secondary pole 44, and the connecting bent pipe 22 is provided with one section which connects the two sections of rain pipes 21; the bottom end of the rainwater pipe 21 arranged on the primary pole 42 is communicated with an underground drainage system to drain rainwater underground.

Further, the rainwater pipe 21 and the connecting bent pipe 22 are arranged on the supporting column 4 in a shape following manner, and the supporting column 4 is of a crotch-shaped structure. In order to ensure the supporting effect and the attractive appearance of the supporting column 4, the supporting column 4 is sequentially forked from bottom to top to form a fork-shaped structure to support the house cover with the shape of the streamer, and in order to ensure the convenience of installation, a construction method of sectional installation is adopted for the supporting column 4.

As shown in fig. 1 and 2, the roof water collecting structures 1 are further arranged in rows at the lowest part of the roof 3.

Preferably, the rain water pipe 21 is fixed to the support post 4 by a mounting bracket.

In order to ensure the convenience and the aesthetic property of construction, a drainage system is divided into a roof water collecting structure 1 and an indoor water falling structure 2, a rainwater tank 11 and a water falling pipe 12 of the roof water collecting structure 1 are pre-assembled firstly, then the roof 3 is hoisted together in place, the indoor water falling structure 2 supported on a support column 4 is divided into a pre-assembled rainwater pipe 21, a connection bent pipe 22 and a flow collecting pipe 23 which are installed subsequently, the rainwater pipe 21 is pre-assembled and then hoisted together along with the support column in a segmented manner, then the connection bent pipe 22 is constructed to connect adjacent rainwater pipes 21, a water conveying pipe device 13 is constructed firstly, then the flow collecting pipe 23 is arranged to connect a water conveying pipe 131 and the rainwater pipe 21, and further the roof water collecting structure 1 and the indoor water falling structure 2 are connected to form the integral drainage system.

A construction method of a hidden drainage system arranged on a streamer appearance building comprises the following steps:

s1, prefabricating: prefabricating the roof water collecting structure 1 and the indoor water falling structure 2 before construction, and transporting to a construction site;

s2, pre-assembling a roof water collecting structure: assembling the roof 3 on the ground, pre-installing the roof water collecting structure 1 on the roof 3, and performing a water supply test;

s3, roof hoisting: hoisting the assembled roof 3, and simultaneously hoisting the roof water collecting structure 1 in place;

s4, pre-assembling a rainwater pipe: pre-installing and fixing the rain pipe 21 on the section of the support column 4;

s5, assembling the rainwater pipe: hoisting the support columns 4 from bottom to top in sections, hoisting the rainwater pipes 21 together in place, and installing the connecting bent pipes 22;

s6, integrally connecting: after the supporting column 4 is installed in place, the rotary hanging bracket is installed firstly, after the installation is finished, the water delivery pipe 131 is installed in place, then the flow collecting pipe 23 is installed, the roof water collecting structure 1 is connected with the rainwater pipe 21, and the installation of the drainage system is completed.

Further, in step S4, the assembling operation of the rain water pipe 21 is as follows: the installation of the primary node 41 is performed first, then the installation of the primary pole 42, the secondary node 43 and the secondary pole 44 is performed in sequence on the primary node 41, after the installation is in place, the installation of the connecting elbow 22 is performed, and the rainwater pipe 21 on the primary pole 42 and the rainwater pipe 21 on the secondary pole 44 are spliced.

Further, in step S1, firstly, in order to ensure that the indoor water falling structure 2 supported on the supporting column is more consistent with the indoor structure, the coordination of the appearance of the indoor water falling structure 2 is ensured; secondly, the rainwater pipe 21 and the support column 4 are shaped, the shape and the interface angle are both special, and in order to ensure the connection accuracy of the connection elbow 22, the BIM modeling method is adopted to manufacture each component of the indoor water falling structure 2, so that the splicing accuracy and the appearance attractiveness are ensured. The concrete construction operation is as follows: firstly, the rainwater pipe 21 is modeled according to the shape structure of the support column 4 in the BIM system, the connection bent pipe 22 is modeled according to the shape structure of the support column 4 and the connection angle of the rainwater pipe 21, the rainwater pipe 21 and the connection bent pipe 22 are manufactured according to the model, the manufactured connection bent pipe 22 can be smoothly connected with the rainwater pipe 21, and construction difficulty is reduced.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein, and any reference signs in the claims are not intended to be construed as limiting the claim concerned.

Claims (8)

1. A hidden drainage system arranged on a streamer appearance building is arranged on a roof, the roof comprises a roof (3) and a support column (4), and the hidden drainage system is characterized by comprising a roof water collecting structure (1) and an indoor water falling structure (2), wherein the roof water collecting structure (1) is arranged on the roof (3), the indoor water falling structure (2) is arranged on the support column (4), the roof water collecting structure (1) is connected with the indoor water falling structure (2), and the indoor water falling structure (2) is connected with an underground water collecting pit;

the indoor water falling structure (2) comprises rainwater pipes (21), connecting bent pipes (22) and collecting pipes (23), wherein the connecting bent pipes (22) are arranged between the adjacent rainwater pipes (21), and the collecting pipes (23) are arranged at the top ends of the rainwater pipes (21) and connected with the roof water collecting structure (1);

the roof water collecting structure (1) is arranged on a roof (3) at intervals and comprises a rain gutter (11), a downpipe (12) and a water conveying pipe device (13), the rain gutter (11) is arranged on the roof (3), the downpipe (12) is arranged at the lower part of the rain gutter (11), and the water conveying pipe device (13) is arranged at the bottom end of the downpipe (12) and is connected with a collecting pipe (23);

support column (4) include one-level node (41), one-level post (42), second grade node (43) and second grade post (44) from bottom to top successively, establish on one-level post (42) and second grade post (44) rainwater pipe (21), establish on second grade node (43) connecting return bend (22).

2. A concealed drainage system for installation on a flag-shaped building according to claim 1, wherein: the rainwater tank (11) is located in the structure of the roof (3) and comprises a water permeable cover plate and a water collecting tank, the water permeable cover plate is located at the top of the water collecting tank and is flush with the roof (3), and the downpipe (12) is arranged at the bottom of the water collecting tank.

3. A concealed drainage system for installation on a flag-shaped building according to claim 1, wherein: the water pipe device (13) comprises a water pipe (131) and a rotary hanging bracket, the rotary hanging bracket is fixedly connected to the roof (3), one end of the water pipe (131) is connected to the downpipe (12), and the other end of the water pipe is connected with the collecting pipe (23).

4. A concealed drainage system for installation on a flag-shaped building according to claim 1, wherein: the rainwater pipe (21) and the connecting bent pipe (22) are arranged on the supporting column (4) along with the shape, and the supporting column (4) is of a fork-shaped structure; the rainwater pipe (21) is fixed on the supporting column (4) through a mounting bracket.

5. A concealed drainage system for installation on a flag form building according to claim 3, wherein: the rotary hanging bracket comprises a bearing base (132), a supporting cross arm (133), a hanging rod (134) and a pipe clamp (135), wherein the bearing base (132) rotates on the supporting cross arm (133), the supporting cross arm (133) is connected to the roof (3) through the hanging rod (134), the pipe clamp (135) is arranged on the bearing base (132), and the water conveying pipe (131) is fixed to the bearing base (132) through the pipe clamp (135).

6. A concealed drainage system according to claim 5 provided on a streamer profile building, wherein: the bearing base (132) is connected on supporting cross arm (133) through pivot (136), support the both ends of cross arm (133) and stretch out outside bearing base (132), suspension pole (134) are established on the both ends of supporting cross arm (133).

7. A concealed drainage system according to claim 5 provided on a streamer profile building, wherein: the pipe clamps (135) are arranged on the bearing base (132) at intervals, and the pipe clamps (135) are arranged in rows.

8. A concealed drainage system according to claim 5 provided on a streamer profile building, wherein: the suspension rod (134) is provided with a stacked sleeve, and the stacked sleeve is sleeved on the suspension rod (134).

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