CN218541233U - Gutter node of oblique roofing - Google Patents

Abstract

The utility model provides a gutter node of an inclined roof, which comprises a node main body and first connecting parts arranged at two sides of the node main body and used for being connected with the inclined roof; the node main body comprises a concave groove, one side, away from the opening, of the concave groove is provided with a groove matched with the inclined roof, and the groove forms a bulge on one side of the opening of the concave groove. The utility model also provides a gutter of oblique roofing, including above-mentioned gutter node, still include the connected node who cooperatees with the connection with the gutter node. The utility model also provides an oblique roofing structure, including above-mentioned gutter, still including the steel column that is used for the support and with the sloping of steel column connection, steel column and sloping top are provided with the roof boarding. The utility model discloses a gutter node integrated into one piece for the installation is easy and simple to handle. The utility model discloses a gutter makes the rainwater discharge in order, has avoided the rainwater freely to fall into water and has splashed the problem emergence of the traffic of wet wall, erosion outer wall basement and influence pavement.

Description

Gutter node of oblique roofing

Technical Field

The utility model relates to a building envelope field, more specifically relates to a gutter node of oblique roofing.

Background

In order to consider the overall appearance effect of the whole building main body, the roofs of more and more buildings are provided with herringbone roof structures. The herringbone roof is also called as an inclined roof, and the structure mainly comprises steel columns, herringbone rigid frame beams, concrete floor slabs and the like. The herringbone roof structure has the characteristics of simple shape, quick processing, convenience for industrial processing, short construction period and the like, and is widely applied to buildings such as industry and commerce.

The herringbone steel roof truss is an integral structure stabilizing system consisting of a steel frame structure system, a supporting system, an enclosure system and the like, wherein the enclosure system is used as an important component of a steel structure building. The enclosure system comprises roofing, outer wall, door, window etc. and roofing, outer wall enclose into inner space, can shield the invasion and attack of external bad weather, also play the effect of sound insulation simultaneously to guarantee the security and the privacy of using the crowd. The design of the enclosure system needs to consider the influence of factors such as appearance, waterproof performance, structural performance, thermal performance, control of condensed water and the like. Wherein the roof drainage structure is an important component in the enclosure system.

Roof drainage is divided into organized drainage and unorganized drainage. The organized drainage is that rainwater is collected in a gutter and then drained by a rainwater pipe, the gutter is a concave part between two spans of a building roof, and the gutter is mainly used for temporarily collecting the rainwater and then is drained away in time through a downpipe. Unorganized drainage is also called free falling water, and refers to a drainage mode that roof rainwater directly falls to outdoor ground from cornices. The method has the advantages of simple structure and low manufacturing cost, but roof rainwater falls freely and splashes on the wall surface, the outer wall foots are often eroded by the splashed rainwater, the firmness and durability of the outer wall are influenced, and the traffic of a sidewalk is possibly influenced. The traditional herringbone roof structure adopts unorganized drainage, rainwater is easy to freely fall into water and splash the wall surface in the drainage mode, the outer wall feet are often eroded by the splashed rainwater, the firmness and durability of the outer wall are affected, and the traffic of a sidewalk is possibly affected.

SUMMERY OF THE UTILITY MODEL

The utility model relates to an overcome current chevron shape roofing structure and adopt the unorganized drainage phenomenon that the rainwater splashes to appear easily to influence passing under the wall, produce the traffic problem. The utility model discloses roofing drainage to the chevron shape roofing provides the gutter node of an oblique roofing to reach and make the rainwater discharge in order, avoid the rainwater freely fall into water and splash the purpose of wall, erosion outer wall basement.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a gutter node of an inclined roof comprises a node main body and first connecting parts which are arranged on two sides of the node main body and are used for being connected with the inclined roof; the joint main body comprises a concave groove, one side, away from an opening, of the concave groove is provided with a groove matched with an inclined roof, and a protrusion is formed on one side, away from the opening, of the concave groove.

Through above-mentioned technical scheme, integrated into one piece when production is managed to the gutter node, cooperates through concave groove and oblique roofing and connects, and this kind of gutter node simple structure to it is more convenient to make roofing drainage system's installation.

A gutter of an inclined roof comprises gutter nodes and connecting nodes matched with the gutter nodes for connection.

Through above-mentioned technical scheme, gutter node both sides are provided with connected node, and gutter node and connected node welding, connected node connect the drainage pipe of oblique roofing respectively. Through the cooperation of gutter node and connected node to and connected node and drainage pipe's cooperation, make falling into water of oblique roofing can discharge in order, thereby avoided freely falling into water can splash the problem emergence of the traffic of wall, erosion outer wall basement and influence pavement.

Preferably, the connection node includes a groove portion for connecting with the concave groove, and further includes a second connection portion for connecting with the first connection portion.

Through above-mentioned technical scheme, the size and the position of concave groove portion and concave groove are corresponding, and the drainage pipe of oblique roofing is connected to the concave groove portion falls into water in order to discharge, and the second connecting portion are corresponding with first connecting portion for the operation of installation gutter is more simple and convenient. The connection of the concave groove and the connection of the first connecting part and the second connecting part are all in a welding mode, the welding seam quality is good, the protection effect is good, water leakage is guaranteed, and the water falling is orderly discharged along a drainage system of the inclined roof.

An oblique roofing structure, includes above-mentioned gutter, still including be used for the steel column that supports and with the sloping that the steel column is connected, the steel column with the sloping top is provided with the roof boarding.

Through the technical scheme, the gutter is made of the steel material, and the material can be made into a certain shape, size and performance through pressure processing, so that the manufacturing process of the gutter is simple. The gutter is arranged in the inclined roof mechanism, so that water falling of the inclined roof can be orderly discharged, and the problems that the wall surface is splashed, outer wall skirts are corroded and traffic of a sidewalk is influenced due to free water falling are avoided.

As a preferred scheme, the roof panels include first roof panels connected to the steel columns, and further include second roof panels connected to the oblique girders.

Through the technical scheme, the roof panel is positioned on the roof of a house, is a panel capable of directly bearing roof load, generally uses metals such as aluminum, magnesium, manganese or alloy, and the like, adopts a pre-roll coating process, and has the advantages of good color difference control, uniform paint film, high quality stability, environmental protection and the like.

As a preferred scheme, an assembly part is arranged between the first roof panel and the second roof panel, and the gutter is installed on the assembly part.

Through above-mentioned technical scheme, assembly portion is headspace for the installation operation of oblique roofing structure goes on in order.

Preferably, the groove has the same width as the inclined beam.

Through the technical scheme, the gutter node is clamped from top to bottom to complete the installation of the gutter node, and the groove is only required to be aligned to the oblique beam in the gutter node installation mode, so that the gutter node is simple and convenient to install, and the working efficiency of related technicians is improved.

Preferably, the protrusion includes an inclined surface parallel to the inclined beam, and further includes a connection surface connected to the concave groove.

Through the technical scheme, one side of the concave groove, which is far away from the opening, is provided with the groove matched with the inclined roof, so that the opening side of the concave groove forms a bulge. The convex inclined plane is parallel to the oblique beam, and the convex and the concave groove are plugged through the connecting surface.

As a preferred scheme, the first connecting part is provided with a first folded edge, and the first folded edge is parallel to the roof panel.

Through above-mentioned technical scheme, first connecting portion set up the hem structure parallel with the roof boarding, this kind of structure only need when carrying out the installation operation the card on the roof boarding can, easy operation.

Preferably, the second connecting portion is provided with a second folded edge, and the second folded edge is parallel to the roof panel.

Through the technical scheme, the second connecting part is provided with the edge folding structure parallel to the roof panel, the second connecting part corresponds to the first connecting part in structure, only the edge needs to be aligned during installation, and the gutter can be installed by welding, so that the installation operation of the gutter is simple.

The utility model discloses has following effect:

(1) Rainwater is discharged orderly, and the problems that the rainwater falls freely into the water to splash the wall surface, erode the outer wall foot and influence the traffic of a sidewalk are avoided;

(2) Gutter node integrated into one piece, the connected node sets up and gutter node corresponding structure for the installation of gutter is easy and simple to handle.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required to be used in the description of the prior art or the embodiments will be briefly introduced below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is the structure schematic diagram of a gutter node of an inclined roof of the utility model.

Fig. 2 is the structural schematic diagram of a gutter node of an inclined roof.

Fig. 3 is a schematic structural view of a gutter of an inclined roof of the present invention.

Fig. 4 is a schematic structural diagram of the connection node of the present invention.

Fig. 5 is a side view of a sloping roof structure according to the present invention.

Fig. 6 is a schematic structural view of an inclined roof structure according to the present invention.

The reference numbers illustrate:

100. gutter nodes; 110. a node body; 111. a concave groove; 112. a groove; 113. a protrusion; 114. an inclined surface; 115. a connecting surface; 120. a first connection portion; 121. a first folded edge; 200. connecting the nodes; 210. a groove part; 220. a second connecting portion; 221. a second folded edge; 300. gutter; 400. a steel column; 500. an oblique beam; 600. a roof panel; 610. a first roof panel; 620. a second roof; 630. and an assembling part.

Detailed Description

The invention is further described with reference to the drawings and the specific embodiments. Those of ordinary skill in the art will be able to implement the invention based on these descriptions. Moreover, references to embodiments of the invention in the following description are generally only to be considered as examples of the invention, and not as all embodiments. Therefore, all other embodiments obtained by a person of ordinary skill in the art without creative efforts based on the embodiments of the present invention shall fall within the protection scope of the present invention.

Example 1:

as shown in fig. 1-2, the utility model provides a gutter node of inclined roof, which comprises a node main body 110.

The node main body 110 comprises a concave groove 111, a concave groove 112 matched with the inclined roof is arranged on one side, away from the opening, of the concave groove 111, and the width of the concave groove 112 is the same as that of the inclined beam 500 of the inclined roof. The gutter node 100 is clamped from top to bottom to complete the installation of the gutter node 100, and the mode of installing the gutter node 100 only needs to align the groove 112 with the oblique beam 500, so that the gutter node 100 is easy and convenient to install, and the working efficiency of related technicians is improved.

Accordingly, the groove 112 forms a protrusion 113 on the opening side of the concave groove 111. The protrusion 113 comprises a sloping surface 114 parallel to the sloping beams 500 of the sloping roof and also comprises an attachment surface 115 which is connected to the concave groove 111. The inclined surface 114 of the protrusion 113 is parallel to the inclined beam 500 of the inclined roof, the protrusion 113 and the concave groove 111 are blocked by the connecting surface 115, the structure is simple, and the protrusion 113 is matched with the inclined beam 500 of the inclined roof, so that the installation operation is simple and convenient.

The gutter node 100 is further provided with first connection parts 120 for connection with a sloping roof at both sides of the node main body 110. First connecting portion 120 sets up the hem structure parallel with the roof boarding, this kind of structure when carrying out the installation operation only need the card on the roof boarding can, easy operation.

The gutter joint 100 is integrally formed during manufacture and is connected to the sloping roof by means of the concave channel 111. This gutter joint 100 is simple in construction and thus makes the installation of a roof drainage system more convenient.

As shown in fig. 3-4, the present invention provides a gutter for an inclined roof, which comprises the gutter node 100 and a connecting node 200 connected with the gutter node 100. Gutter node 100 and connected node 200 weld, and connected node 200 connects the drainage pipe of oblique roofing respectively. Through the cooperation of gutter node 100 and connected node 200 to and the cooperation of connected node 200 and drainage pipe, make the falling water of oblique roofing discharge in order, thereby avoided freely falling water can splash the problem emergence of the wall, erosion outer wall basement and the traffic of influence pavement.

The connection node 200 includes a groove portion 210 for connection with the concave groove 111, the groove portion 210 corresponding to the size and position of the concave groove 111, the groove portion 210 connecting drainage pipes of the sloping roof to drain the falling water.

The connection node 200 further comprises a second connection portion 220 used for being connected with the first connection portion 120, the second connection portion 220 is provided with a folding edge structure parallel to the roof panel, the second connection portion 220 corresponds to the first connection portion 120 in structure, only the edge needs to be aligned during installation, and the installation of the gutter can be completed through welding, so that the installation operation of the gutter 300 is simple.

The connection of the concave groove 111 and the groove portion 210 and the connection of the first connecting portion 120 and the second connecting portion 220 are all in a welding mode, the welding seam quality is good, the protection effect is good, water leakage is guaranteed, and the falling water is discharged along a drainage system of an inclined roof in order.

As shown in fig. 5-6, the utility model provides an inclined roof structure, including above-mentioned gutter 300, gutter 300 adopts the steel material to make, and certain shape, size and performance that this kind of material just can be made through the pressure processing consequently make gutter 300's preparation simple process.

The sloping roof structure further comprises a steel column 400 for supporting and a sloping beam 500 connected with the steel column 400, and a roof panel 600 is arranged above the steel column 400 and the sloping beam 500. The roof panels 600 include a first roof panel 610 connected to the steel column 400 and a second roof panel 620 connected to the raked beams 500. The roof panel 600 is positioned on the roof of a house, is a panel capable of directly bearing the load of the roof, generally uses metals such as aluminum, magnesium, manganese or alloy, and the like, adopts a pre-roll coating process, and has the advantages of good color difference control, uniform paint film, high quality stability, environmental protection and the like. An assembly part 630 is arranged between the first roof panel 610 and the second roof panel 620, the gutter 300 is arranged on the assembly part 630, and the assembly part 630 is a reserved space, so that the installation operation of the inclined roof structure is orderly carried out.

The specific using process is as follows:

firstly, steel columns need to be built, then the installation of the oblique beams is completed, then roof panels are installed, assembling parts are reserved, and finally the gutter is installed. When the operation of installing the gutter is performed, the gutter node is first installed. When the operation of installing the gutter joint is carried out, the groove is firstly aligned to the oblique beam and then pressed from top to bottom. And after the gutter node is installed, aligning the connecting node with the gutter node, and finally welding the connecting node with the gutter node.

Claims (10)

1. A gutter node of an inclined roof is characterized in that,

the node comprises a node main body (110) and first connecting parts (120) which are arranged on two sides of the node main body (110) and are used for being connected with an inclined roof;

the node main body (110) comprises a concave groove (111), one side, away from the opening, of the concave groove (111) is provided with a groove (112) matched with an inclined roof, and the groove (112) is formed in one side, facing the opening, of the concave groove (111) to form a protrusion (113).

2. A gutter of an inclined roof is characterized in that,

including the gutter node (100) of claim 1, further comprising a connection node (200) cooperating with the gutter node (100) for connection.

3. A gutter for a sloping roof as claimed in claim 2,

the connection node (200) comprises a groove portion (210) for connection with the concave groove (111) and further comprises a second connection portion (220) for connection with the first connection portion (120).

4. An inclined roof structure is characterized in that,

the gutter (300) as claimed in claim 3, further comprising a steel column (400) for supporting and a sloping beam (500) connected to the steel column (400), wherein a roof panel (600) is arranged above the steel column (400) and the sloping beam (500).

5. A sloping roof construction according to claim 4, characterised in that the roof panels (600) comprise a first roof panel (610) connected to the steel column (400) and a second roof panel (620) connected to the sloping beams (500).

6. A sloping roof construction according to claim 5, characterised in that intermediate the first roof panel (610) and the second roof panel (620) is a mounting portion (630), and that the gutter (300) is mounted on the mounting portion (630).

7. A sloping roof construction according to claim 4, characterized in that the grooves (112) are the same width as the sloping beams (500).

8. A sloping roof structure according to claim 4, characterized in that the protrusions (113) comprise sloping surfaces (114) parallel to the sloping beams (500) and further comprise attachment surfaces (115) to which the concave channels (111) are attached.

9. A sloping roof construction according to claim 4, characterised in that the first connecting portion (120) is provided with a first fold (121), which first fold (121) is parallel to the roof panel (600).

10. A sloping roof construction according to claim 4, wherein the second connecting portion (220) is provided with a second flap (221), the second flap (221) being parallel to the roof panel (600).

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