CN215407003U - Large-span commercial roof framework integrated drainage structure - Google Patents

Abstract

The utility model relates to an integrated drainage structure of a large-span commercial roof framework. It has solved the not good problem of ceiling drainage device result of use among the prior art. It includes the arc guiding device who is formed by a plurality of arc guiding gutters interconnect, be equipped with the reposition of redundant personnel subassembly between two adjacent arc guiding gutters, the reposition of redundant personnel subassembly downside communicates each other with the reposition of redundant personnel framework that sets up in arc guiding device bottom, arc guiding device one end is equipped with the drainage mechanism who is linked together with reposition of redundant personnel subassembly and arc guiding device, the reposition of redundant personnel subassembly passes through fixed subassembly and links to each other with the drainage tank that is formed at drainage mechanism upper end, arc guiding device communicates each other with the guiding device who sets up at drainage mechanism both sides circumference inner wall. The utility model has the advantages that: the space occupation is reduced, the structure is stable, the integration degree is high, and the using effect is good.

Description

Large-span commercial roof framework integrated drainage structure

Technical Field

The utility model relates to the technical field of roof drainage, in particular to an integrated drainage structure of a large-span commercial roof framework.

Background

The common traditional outdoor block is influenced by natural weather conditions and is affected by rain and snow, which causes great interference to commercial activities. The mode of arranging a wind-rain ceiling on the action line is pursued in many ways.

The common ceiling is mainly in a steel structure form, and although the ceiling can adapt to the structural requirement of large span, the aesthetic feeling of the ceiling is not high; meanwhile, the drainage facility of the ceiling also has a great influence on the final effect. Common organized drainage takes mainly the following form: a finished drainage ditch is arranged at the edge of the pitched roof, and rainwater is guided into the drainage ditch and then reaches an underground rainwater pipe system through a vertical downpipe; the flat roof finds slopes in all directions to reach horizontal drainage ditches and then reaches an underground rainwater pipe system through the vertical pipe.

The arrangement of such conventional drainage systems brings about major problems:

1. the finished drainage ditch is suspended outside the roof framework and is generally difficult to fuse with the framework, so that the attractiveness is affected; even through the hidden design, the size of the edge rod piece is greatly increased, and the requirement of attractive appearance cannot be met;

2. the vertical drainage pipe is hidden indoors and occupies the indoor space, so that the utilization rate of the indoor space is reduced; the appearance is affected if the film is not hidden.

Meanwhile, the steel members adopted by the roof steel structure are generally I-shaped steel or U-shaped steel, and under the condition of large span, the groove part has large size, so that the material waste is easily caused, and the using effect is poor.

Disclosure of Invention

The utility model aims to solve the problems and provides an integrated drainage structure of a large-span commercial roof framework, which is reasonable in design and good in drainage effect.

In order to achieve the purpose, the utility model adopts the following technical scheme: this large-span commercial roof framework integration drainage structures, include the arc guiding device who is formed by a plurality of arc guiding gutter interconnect, be equipped with the reposition of redundant personnel subassembly between two adjacent arc guiding gutters, the reposition of redundant personnel subassembly downside communicates each other with the reposition of redundant personnel framework that sets up in arc guiding device bottom, arc guiding device one end is equipped with the drainage mechanism who is linked together with reposition of redundant personnel subassembly and arc guiding device, the reposition of redundant personnel subassembly passes through fixed subassembly and links to each other with the drainage tank that is formed in drainage mechanism upper end, arc guiding device communicates each other with the guiding device who sets up at drainage mechanism both sides circumference inner wall. The rainwater to the ceiling is guided through the arc guiding device that the roof setting is constituteed by a plurality of arc guiding gutters and integrated into one piece's reposition of redundant personnel subassembly, and outdoor setting advances the drainage with arc guiding device and reposition of redundant personnel subassembly fixed connection's drainage mechanism, not only make arc guiding device and reposition of redundant personnel subassembly and ceiling even formula structure as an organic whole, set up drainage mechanism between two continuous arc guiding device in addition, not only effectively practiced thrift the use section bar, and the integrated design is more pleasing to the eye, the wholeness is good, excellent in use effect.

In the above-mentioned large-span commercial roof truss integrated drainage structure, the drainage mechanism is disposed between two arc-shaped flow guide devices of different orientations, and the bottom of the drainage mechanism is connected with the underground rainwater pipe system. Therefore, the number of the drainage mechanisms can be reduced, and materials are saved.

In the integrated drainage structure of the large-span commercial roof framework, the diversion frame body is of a U-shaped structure, two ends of the diversion frame body are fixedly connected with two sides of the arc-shaped diversion device, and a diversion trench is formed between the diversion frame body and the arc-shaped diversion device.

In foretell large-span commercial roof framework integration drainage structures, the reposition of redundant personnel subassembly includes that both sides link to each other with arc guiding gutter side respectively's arc splitter box, and arc splitter box bottom is equipped with the water conservancy diversion chamber, and the water conservancy diversion intracavity communicates each other with the guiding gutter through a plurality of shunt tubes that are vertical setting. The drainage pressure of the arc-shaped flow guide device can be effectively reduced through the flow distribution assembly, and the drainage speed is improved.

In the above-mentioned large-span commercial roof truss integration drainage structures, drainage mechanism includes the braced frame body, and the water drainage tank sets up at the braced frame body up end, and the braced frame body lower extreme has the supporting part, and has the water conservancy diversion cavity in the braced frame body. Rainwater drainage system with diversion cavity capable of draining rainwater to underground rainwater pipe

In foretell large-span commercial roof framework integration drainage structures, the drainage tank both sides upper end is equipped with the locating plate frame, and the last axial of locating plate frame is equipped with the inserting groove, and reposition of redundant personnel framework one end sets up in the inserting groove and tip towards the drainage tank slope setting. Effectively fix and form stable support the reposition of redundant personnel framework through the locating plate frame.

In foretell large-span commercial roof framework integration drainage structures, fixed subassembly is including setting up the locating hole at locating plate frame both ends, and reposition of redundant personnel framework both sides are equipped with the mounting hole that corresponds the setting with the locating hole, and the reposition of redundant personnel framework is through wearing to locate the connecting screw releasable connection in locating hole and the mounting hole. Through the fixing assembly, the shunting frame body and the positioning plate frame can be tightly connected to form an integrated time structure, and the stability is improved.

In foretell large-span commercial roof framework integration drainage structures, guiding device is equipped with a plurality of inlet openings that set up with arc guiding gutter one-to-one including setting up the connection water pipe in location grillage upper end on connecting the water pipe, and arc guiding gutter one end is pegged graft in the inlet opening, connects the water pipe both ends and communicates each other with the water conservancy diversion cavity through setting up the connecting channel and the water conservancy diversion cavity at location grillage both ends inner wall. The rainwater in the arc-shaped diversion trench can be quickly guided out into the diversion cavity by the diversion device.

In the above-mentioned large-span commercial roof truss integrated drainage structure, one end of the diversion frame body is exposed out of one end of the arc-shaped diversion device and is arranged on the upper side of the drainage channel.

In the above-mentioned large-span commercial roof truss integrated drainage structure, the inner side in the circumferential direction of the drainage channel is provided with corrosion-resistant glass. The arrangement of the corrosion-resistant glass can effectively prolong the service life of the drainage channel and prevent the drainage channel from being corroded by rainwater and damaged after long-term use.

Compared with the prior art, the utility model has the advantages that: reasonable in design, simple structure forms integration drainage structures and even as an organic whole with the ceiling through setting up in the arc guiding device and the reposition of redundant personnel subassembly of ceiling, and the design is more pleasing to the eye, and the wholeness is good, sets up between two adjacent arc guiding device one end through drainage mechanism moreover, has not only effectively practiced thrift the section bar, sets up in outdoor moreover, does not occupy interior space, excellent in use effect.

Drawings

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

FIG. 2 is an enlarged view of the structure at A in FIG. 1;

FIG. 3 is a schematic view of the structure of the positioning plate frame and the connecting water pipe of the present invention;

FIG. 4 is a schematic structural view of the arcuate deflector and the arcuate splitter box of the present invention;

fig. 5 is a cross-sectional view of the arcuate deflector and diverter assembly of the present invention.

In the figure, the arc-shaped diversion device 1, the arc-shaped diversion trench 11, the diversion frame 12, the diversion trench 13, the diversion assembly 2, the arc-shaped diversion trench 21, the diversion cavity 22, the diversion pipe 23, the drainage mechanism 3, the drainage trench 31, the support frame 32, the support part 33, the diversion cavity 34, the positioning plate frame 35, the insertion groove 36, the corrosion-resistant glass 37, the fixing assembly 4, the positioning hole 41, the mounting hole 42, the connecting screw rod 43, the diversion device 5, the connecting water pipe 51, the water inlet 52 and the connecting passage 53.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

As shown in fig. 1-5, the integrated drainage structure of the large-span commercial roof truss comprises an arc-shaped diversion device 1 formed by connecting a plurality of arc-shaped diversion grooves 11, a diversion component 2 is arranged between two adjacent arc-shaped diversion grooves 11, the lower side of the diversion component 2 is communicated with a diversion frame 12 arranged at the bottom of the arc-shaped diversion device 1, a drainage mechanism 3 communicated with the diversion component 2 and the arc-shaped diversion device 1 is arranged at one end of the arc-shaped diversion device 1, the diversion component 2 is connected with a drainage groove 31 formed at the upper end of the drainage mechanism 3 through a fixing component 4, and the arc-shaped diversion device 1 is communicated with a diversion device 5 arranged on the circumferential inner walls at two sides of the drainage mechanism 3. Arc guiding device 1 and reposition of redundant personnel subassembly 2 set up on the roofing ceiling and even formula structure as an organic whole, and drainage mechanism 3 sets up in outdoor and even as an organic whole with arc guiding device 1 and reposition of redundant personnel subassembly 2 tip, not only design pleasing to the eye, stable in structure has effectively practiced thrift the section bar moreover, has reduced the space and has occupy, excellent in use effect.

Wherein, drainage mechanism 3 sets up between two arc guiding device 1 of different orientations, and drainage mechanism 3 bottom and secret rainwater pipe system are connected. Thus, the rainwater can be prevented from splashing when being discharged.

As can be seen, the flow dividing frame 12 is U-shaped, two ends of the flow dividing frame 12 are fixedly connected to two sides of the arc-shaped flow guiding device 1, and a flow guiding groove 13 is formed between the flow dividing frame 12 and the arc-shaped flow guiding device 1. The diversion frame 12 is mainly used for guiding rainwater drained by the diversion assembly 2 into the drainage groove 31.

Obviously, the flow dividing assembly 2 comprises an arc-shaped flow dividing groove 21 with two sides respectively connected with the side surfaces of the arc-shaped flow guide groove 11, a flow guide cavity 22 is arranged at the bottom of the arc-shaped flow dividing groove 21, and the flow guide cavity 22 is communicated with the flow guide groove 13 through a plurality of flow dividing pipes 23 which are vertically arranged. The diversion assembly 2 is used for reducing the drainage pressure of the arc diversion trench 11.

Furthermore, the drainage mechanism 3 includes a support frame 32, the drainage channel 31 is disposed on the upper end surface of the support frame 32, the lower end of the support frame 32 has a support portion 33, and the support frame 32 has a flow guiding cavity 34 therein. The diversion cavity 34 is in communication with the storm drain system.

Specifically, the upper ends of the two sides of the drainage channel 31 are provided with a positioning plate frame 35, the positioning plate frame 35 is axially provided with an insertion groove 36, one end of the shunting frame body 12 is arranged in the insertion groove 36, and the end part of the shunting frame body is inclined towards the drainage channel 31. When one end of the flow dividing frame 12 is inserted into the insertion groove 36, one end of the arc-shaped flow guide groove 11 is just inserted into the water inlet 52.

Further, the fixing assembly 4 includes positioning holes 41 disposed at two ends of the positioning plate frame 35, mounting holes 42 disposed corresponding to the positioning holes 41 are disposed at two sides of the flow dividing frame 12, and the flow dividing frame 12 is detachably connected by connecting screws 43 disposed through the positioning holes 41 and the mounting holes 42.

More specifically, the guiding device 5 includes a connecting water pipe 51 disposed at the upper end of the positioning plate frame 35, the connecting water pipe 51 is provided with a plurality of water inlet holes 52 disposed in one-to-one correspondence with the arc-shaped guiding grooves 11, and one end of each of the arc-shaped guiding grooves 11 is inserted into the water inlet hole 52, and the two ends of the connecting water pipe 51 are communicated with the guiding cavity 34 through connecting passages 53 disposed at the inner walls of the two ends of the positioning plate frame 35. The diameter of the water inlet hole 52 is larger than the maximum width of the arc-shaped diversion trench 11.

In detail, one end of the diversion frame 12 is exposed to one end of the arc-shaped diversion device 1 and is disposed above the drainage groove 31.

Preferably, the drain groove 31 is provided with corrosion-resistant glass 37 on the circumferential inner side. The corrosion-resistant glass 37 is used for preventing the drain tank 31 from being damaged by acid erosion of rainwater in long-term use.

In summary, the principle of the present embodiment is: through discharging the rainwater that falls in the ceiling with arc guiding gutter 11, carry out the rainwater reposition of redundant personnel through arc splitter box 21 simultaneously, wherein discharge rainwater to underground rainwater pipe system behind connecting water pipe 51 entering water conservancy diversion cavity 34 through arc guiding gutter 11, and the rainwater of deriving through arc splitter box 21 gets into water drainage tank 31 through guiding gutter 13 and discharges to the outside.

The specific embodiments described herein are merely illustrative of the spirit of the utility model. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the spirit or ambit of the utility model as defined in the appended claims.

Although the terms of the arc-shaped diversion device 1, the arc-shaped diversion trench 11, the diversion frame 12, the diversion trench 13, the diversion assembly 2, the arc-shaped diversion trench 21, the diversion cavity 22, the diversion pipe 23, the drainage mechanism 3, the drainage trench 31, the support frame 32, the support part 33, the diversion cavity 34, the positioning plate frame 35, the insertion groove 36, the corrosion-resistant glass 37, the fixing assembly 4, the positioning hole 41, the mounting hole 42, the connecting screw 43, the diversion device 5, the connecting water pipe 51, the water inlet hole 52, the connecting passage 53, and the like are used more frequently, the possibility of using other terms is not excluded. These terms are used merely to more conveniently describe and explain the nature of the present invention; they are to be construed as being without limitation to any additional limitations that may be imposed by the spirit of the present invention.

Claims (10)

1. The utility model provides a large-span commercial roof framework integration drainage structures, includes arc guiding device (1) that is formed by a plurality of arc guiding gutters (11) interconnect, its characterized in that, two adjacent arc guiding gutters (11) between be equipped with reposition of redundant personnel subassembly (2), reposition of redundant personnel subassembly (2) downside and setting up reposition of redundant personnel framework (12) intercommunication in arc guiding device (1) bottom, arc guiding device (1) one end be equipped with drainage mechanism (3) that are linked together with reposition of redundant personnel subassembly (2) and arc guiding device (1), reposition of redundant personnel subassembly (2) link to each other through fixed subassembly (4) and drainage tank (31) that are formed in drainage mechanism (3) upper end, arc guiding device (1) and setting guiding device (5) intercommunication each other at drainage mechanism (3) both sides circumference inner wall.

2. The large-span commercial rooftop frame integrated drainage structure of claim 1, wherein the drainage mechanism (3) is disposed between two curved deflectors (1) with different orientations, and the bottom of the drainage mechanism (3) is connected to a ground drainage network.

3. The large-span commercial roof truss integrated drainage structure of claim 2, wherein the diversion frame body (12) is of a U-shaped structure, two ends of the diversion frame body (12) are fixedly connected with two sides of the arc-shaped diversion device (1), and a diversion trench (13) is formed between the diversion frame body (12) and the arc-shaped diversion device (1).

4. The large-span commercial roof truss integrated drainage structure as claimed in claim 3, wherein the diversion assembly (2) comprises an arc diversion trench (21) with two sides connected to the sides of the arc diversion trench (11), respectively, a diversion cavity (22) is formed at the bottom of the arc diversion trench (21), and the diversion cavity (22) is communicated with the diversion trench (13) through a plurality of vertically arranged diversion pipes (23).

5. The large-span commercial roof truss integrated drainage structure of claim 1, wherein the drainage mechanism (3) comprises a support frame (32), the drainage channel (31) is disposed on the upper end surface of the support frame (32), the support frame (32) has a support portion (33) at the lower end, and the support frame (32) has a flow guide cavity (34) therein.

6. The large-span commercial roof truss integrated drainage structure as claimed in claim 5, wherein the drainage channel (31) is provided at the upper ends of both sides thereof with positioning plate frames (35), the positioning plate frames (35) are axially provided with insertion grooves (36), one end of the diversion frame body (12) is disposed in the insertion groove (36) and the end thereof is disposed obliquely toward the drainage channel (31).

7. The integrated drainage structure of large-span commercial roof trusses according to claim 6, wherein said fixing member (4) comprises positioning holes (41) formed at both ends of the positioning grillage (35), and mounting holes (42) formed at both sides of said flow dividing frame body (12) corresponding to the positioning holes (41), said flow dividing frame body (12) being detachably connected by means of connecting screws (43) inserted into the positioning holes (41) and the mounting holes (42).

8. The integrated drainage structure for large-span commercial roof trusses according to claim 5, wherein said guiding means (5) comprises a connecting water pipe (51) disposed at the upper end of the positioning grillage (35), said connecting water pipe (51) is provided with a plurality of water inlet holes (52) disposed in one-to-one correspondence with the arc-shaped guiding grooves (11), and one end of the arc-shaped guiding groove (11) is inserted into the water inlet hole (52), and both ends of said connecting water pipe (51) are communicated with the guiding cavity (34) through connecting passages (53) disposed at the inner walls of both ends of the positioning grillage (35).

9. The integrated drainage structure of large-span commercial roof trusses according to claim 3, wherein one end of the diversion frame body (12) is exposed to one end of the arc-shaped diversion device (1) and is disposed on the upper side of the drainage groove (31).

10. The large-span commercial roof truss integrated drainage structure of claim 9 wherein the drainage channel (31) is provided with corrosion resistant glass (37) on the circumferential inner side.

Images