CN219909646U - 360 degrees vertical overlock roof boards of anti dynamic wind uncovering - Google Patents

Abstract

The utility model relates to a dynamic wind uncovering resistant 360-degree vertical overlock roof board; the novel reinforced concrete structure comprises a web plate (1), transverse reinforcing ribs (2), male edges (3) and female edges (4), male edge wave crests (5) and female edge wave crests (6), wherein the transverse reinforcing ribs (2) are arranged in the middle of the web plate (1), the male edge wave crests (5) and the female edge wave crests (6) are respectively arranged on the left side and the right side of the web plate (1), and the male edges and the female edges (3) and (4) are respectively arranged above the male edge wave crests (5) and the female edge wave crests (6); the roof board of the utility model enhances the overall strength of the roof by changing the deformation resistance of the roof board, and the application of the roof board of the utility model can greatly reduce the waste of material resources, has little influence on the normal use of the building, is convenient for practical operation and processing, and greatly improves the dynamic anti-wind uncovering capability.

Description

360 degrees vertical overlock roof boards of anti dynamic wind uncovering

Technical Field

The utility model relates to the field of metal roof boards, in particular to a dynamic wind uncovering resistant 360-degree vertical overlock roof board.

Background

The metal roof system is in a building envelope form widely adopted in modern steel structure buildings, and the traditional 360-degree vertical serging roof plate is applied to the connection of the metal roof system, so that the static wind resistance of the metal roof system is improved on the basis. However, in the environment with a plurality of typhoons in coastal areas and the like, engineering projects often improve the dynamic wind resistance of the 360-degree vertical overlooking roof panel as much as possible on the premise of requiring high static wind resistance, the trough intensity of the traditional 360-degree vertical overlooking roof panel in the current metal roof system is generally weak, the traditional 360-degree vertical overlooking roof panel is easy to deform in dynamic wind uncovering, and the wind uncovering resistance of the roof system is not high due to overlarge trough deflection.

The traditional 360-degree vertical overlock roof board mainly comprises a web plate (trough), a public edge and a female edge, wherein the public edge and the female edge are connected through the engagement of a support. The common 360-degree vertical overlooking roof board is provided with two longitudinal two-way long reinforcing ribs at the 'trough position' or with traditional trapezoidal reinforcing ribs which are shallower in the transverse direction and are generally not more than 1.5mm deep at a certain distance at the 'trough position'. When the wind-resistant reinforcing rib is subjected to dynamic wind load, the reinforcing rib is weak in deformation resistance, the trough is greatly deformed under lower wind load, the trough deflection is repeatedly changed, so that fatigue damage occurs at the meshed connection part of the support, and the dynamic wind-resistant uncovering capability is not high.

Disclosure of Invention

The utility model aims to overcome the defects, and improve the depth and shape of the transverse reinforcing ribs at the trough of the roof board so as to greatly improve the dynamic anti-tearing capability of the roof system.

In order to achieve the above object, the present utility model is achieved by:

a dynamic wind uncovering resistant 360-degree vertical overlock roof board comprises a web plate (1), transverse reinforcing ribs (2), a public edge (3), a female edge (4), a public edge crest (5) and a female edge crest (6), wherein the reinforcing ribs are formed by equipment stamping and the rest are formed by equipment rolling. The male edge angle is extruded into a concave shape by the equipment, and the length of the male edge angle can be adjusted according to different plate thicknesses. The male and female edges can be curled 360 degrees with the male and female buckles of the traditional 360-degree vertical overlock plate type, and the roof plate rib can be welded with the bracket into a whole. The length of the end of the parent edge can be adjusted according to different plate thicknesses. The reinforcing rib is perpendicular to the running water direction of the roof board, and is formed by punching through equipment.

The transverse reinforcing rib (2) is arranged in the middle of the web plate (1), the outer contour of the transverse reinforcing rib (2) is in an oblong shape, the transverse longitudinal section of the reinforcing rib (2) is in a shape like a Chinese character 'ji', each interface is subjected to chamfering treatment with the largest radius (not limited to), and the height of the reinforcing rib (2) is generally about 5mm (not limited to). The male edge wave peak (5) and the female edge wave peak (6) are respectively arranged on the left side and the right side of the web plate (1), and the male edge and the female edge (3) and the female edge (4) are respectively arranged above the male edge wave peak (5) and the female edge wave peak (6). 1) And (3) public edge manufacturing: determining the detail size of the public edge according to actual requirements, and carrying out mold opening molding by a manufacturer, wherein the public edge size can be adjusted according to the requirements; 2) Manufacturing a parent edge: the female edge is used as a roof board rib, is meshed with the support and the male edge during installation, is subjected to edge locking through profiling equipment, and the sizes of the female edge and the female edge end part can be adjusted according to requirements; 3) And (3) manufacturing reinforcing ribs: the reinforcing rib is arranged in the middle of the web plate and is formed by stamping in a separated distance with the running water direction of the roof, so that the deformation resistance of the roof board can be greatly improved, and the dynamic wind uncovering resistance of the roof system can be improved; manufacturing a roof board: rolling and forming the roof board by using equipment; 5) Roof boarding overlap joint: after the roof board is buckled with the support hook piece and the male rib and the female rib of the roof board, the support hook piece and the roof board are meshed or welded and fixed.

The reinforcing ribs (2) bear wind pressure borne by the web plate (1); the male and female side peaks (5) and (6) bear the wind pressure transmitted by the reinforcing ribs (2) and the web plates (1); after the male and female edges (3 and 4) of the roof board and the support hook pieces are buckled, the male and female edges (3 and 4) bear wind pressure transmitted by the male and female edge wave peaks (5 and 6), the wind pressure is transmitted to the support through the male and female edges (3 and 4), and then the wind pressure is transmitted to the purline through the support.

The transverse bending rigidity of the web plate (1) is effectively improved by adopting the arc-shaped transverse reinforcing ribs (2), the transverse bending rigidity of the web plate (1) is high, and the dynamic anti-wind uncovering capability of the roof system is also improved.

The conventional 360-degree vertical overlock roof board has weak trough deformation resistance and poor dynamic anti-wind uncovering capability, the roof board can strengthen the integral strength of the roof by changing the deformation resistance of the roof board, the waste of material resources can be greatly reduced by applying the roof board, the influence on the normal use of a building is small, the actual operation and the processing are convenient, and the dynamic anti-wind uncovering capability is greatly improved.

Drawings

Fig. 1 is a schematic view of a roof panel according to the present utility model.

Fig. 2 is a schematic diagram of a roof panel structure according to the present utility model.

Fig. 3 is a schematic view of a roof panel according to the present utility model.

Fig. 4 is a schematic diagram of a roof panel according to the present utility model.

Fig. 5 is a schematic diagram of a roof panel structure according to the present utility model.

Fig. 6 is a schematic diagram of a roof panel according to the present utility model.

Detailed Description

The utility model is further illustrated by the following specific examples.

A dynamic wind uncovering resistant 360-degree vertical overlock roof board comprises a web (1), a transverse reinforcing rib (2), a public edge (3), a female edge (4), a public edge crest (5) and a female edge crest (6) (shown in figure 2), wherein the reinforcing rib is formed by stamping through equipment, and the rest is formed by rolling through equipment. The male edge angle is extruded into a concave shape by the equipment, and the length of the male edge angle can be adjusted according to different plate thicknesses. The male and female edges can be curled 360 degrees with the male and female buckles of the traditional 360-degree vertical overlock plate type, and the roof plate rib can be welded with the bracket into a whole. The length of the end of the parent edge can be adjusted according to different plate thicknesses. The reinforcing rib is perpendicular to the running water direction of the roof board, and is formed by punching through equipment.

The transverse reinforcing rib (2) is arranged in the middle of the web plate (1), the outer contour of the transverse reinforcing rib (2) is in an oblong shape (as shown in figure 3), the transverse longitudinal section of the reinforcing rib (2) is in a shape like a Chinese character 'ji', each interface is subjected to chamfering treatment with the maximum radius (not limited to the maximum radius), and the height of the reinforcing rib (2) is generally about 5mm (not limited to the maximum radius), as shown in figures (3 and 4). The male edge wave peak (5) and the female edge wave peak (6) are respectively arranged on the left side and the right side of the web plate (1), and the male edge and the female edge (3) and the female edge (4) are respectively arranged above the male edge wave peak (5) and the female edge wave peak (6). 1) And (3) public edge manufacturing: determining the detail size of the public edge according to actual requirements, and carrying out mold opening molding by a manufacturer, wherein the public edge size can be adjusted according to the requirements; 2) Manufacturing a parent edge: the female edge is used as a roof board rib, is meshed with the support and the male edge during installation, is subjected to edge locking through profiling equipment, and the sizes of the female edge and the female edge end part can be adjusted according to requirements; 3) And (3) manufacturing reinforcing ribs: the reinforcing rib is arranged in the middle of the web plate and is formed by stamping and forming in a separated distance with the running water direction of the roof, so that the deformation resistance of the roof board can be greatly improved, and the dynamic wind uncovering resistance of the roof system can be improved (as shown in figures 3 and 4); manufacturing a roof board: rolling and forming the roof board by using equipment; 5) Roof boarding overlap joint: after the roof board is buckled with the support hook piece and the male rib and the female rib of the roof board, the support hook piece and the roof board are meshed or welded and fixed. (as in FIG. 6)

The reinforcing ribs (2) bear wind pressure borne by the web plate (1); the male and female side peaks (5) and (6) bear the wind pressure transmitted by the reinforcing ribs (2) and the web plates (1); after the male and female edges (3 and 4) of the roof board and the support hook pieces are buckled, the male and female edges (3 and 4) bear wind pressure transmitted by the male and female edge wave peaks (5 and 6), the wind pressure is transmitted to the support through the male and female edges (3 and 4), and then the wind pressure is transmitted to the purline through the support.

The transverse bending rigidity of the web plate (1) is effectively improved by adopting the arc-shaped transverse reinforcing ribs (2), the transverse bending rigidity of the web plate (1) is high, and the dynamic anti-wind uncovering capability of the roof system is also improved.

The roof board has the following characteristics:

1. the depth of the reinforcing ribs is deeper than that of the conventional reinforcing ribs, and the common depth is about 5mm (without limitation), so that the deformation resistance of the roof panel is greatly improved;

compared with the traditional trapezoidal reinforcing ribs, the large-arc arched reinforcing ribs are adopted in the appearance, so that the problem of stress concentration is well reduced.

Claims (1)

1. A360 degrees vertical overlock roof boards of anti dynamic wind take off, characterized by: the reinforcing rib comprises a web plate (1), transverse reinforcing ribs (2), a public edge (3) and a female edge (4), a public edge wave crest (5) and a female edge wave crest (6), wherein the transverse reinforcing ribs (2) are arranged in the middle of the web plate (1), the outer contour of the transverse reinforcing ribs (2) is in an oblong shape, the transverse longitudinal section of the reinforcing ribs (2) is in a shape like a Chinese character 'ji', each interface is subjected to chamfering treatment with the largest radius, the height of the reinforcing ribs (2) is generally about 5mm, the public edge wave crest (5) and the female edge wave crest (6) are respectively arranged on the left side and the right side of the web plate (1), and the public and female edges (3) (4) are respectively arranged above the public and female edge wave crest (5) (6); wherein, the reinforcing rib (2) bears the wind pressure born by the web plate (1); the male and female side peaks (5) and (6) bear the wind pressure transmitted by the reinforcing ribs (2) and the web plates (1); after the male and female edges (3 and 4) of the roof board and the hooking pieces of the support are buckled, the male and female edges (3 and 4) bear wind pressure transmitted by the male and female edge peaks (5 and 6), the wind pressure is transmitted to the support through the male and female edges (3 and 4), and then the wind pressure is transmitted to the purline through the support; the arc-shaped transverse reinforcing rib (2) is adopted.