CN214364519U - Canopy structure with drainage function - Google Patents

Abstract

The utility model relates to the technical field of rainshed, in particular to a rainshed structure with drainage function, which comprises a shed surface main body, wherein the shed surface main body comprises a shed surface unit, the shed surface unit comprises a light transmission panel and four shed surface components, namely a front shed surface component, a rear shed surface component, a left shed surface component, a right shed surface component, a front shed surface component, a rear shed surface component, a right shed surface component, a left shed surface component, a right shed surface component, a front shed surface component, a right shed surface component, a left shed surface component, a right shed surface component, a rear shed surface component and a right shed surface component; the left side end face and the right side end face of the left shed surface component, the rear shed surface component and the front shed surface component are respectively connected and reinforced through connecting plates; the inner part of any shed surface component is hollow, the upper surface of the shed surface component is an inclined surface, and the lower end of the shed surface component is close to the light-transmitting panel; the end surface is provided with a water guide port, and the end surface of the shed surface unit connected with the building is provided with a water outlet; the hollow inner cavities of the left shed surface component and the right shed surface component are respectively communicated with the hollow inner cavities of the front shed surface component and the rear shed surface component forwards and backwards. The utility model makes the whole outer vertical surface of the canopy have neat air pie; the influence on the passage is avoided, accumulated water is drained quickly, and the generation speed of surface stain marks caused by accumulated water deposition is slowed down.

Description

Canopy structure with drainage function

Technical Field

The utility model relates to a canopy technical field, concretely relates to canopy structure with drainage function.

Background

The steel structure canopy generally sets up in the vestibule between entrance and exit, the building between the vestibule, the balcony top of building in the entrance to a court for keep out the wind and keep out the rain or block high altitude weight thing. In order to deal with the problem of drainage, the roof of the shed generally adopts an inclined plane or an arc-shaped curved surface which is convenient for freely falling into water. Such conventional structures have the following disadvantages:

1) the design of free falling into water inevitably produces drainage and slope finding, so that the whole canopy is in a large-upper-small-lower-small lattice arrangement when being observed from the outer side, and the impression experience is influenced;

2) the water falling position on the outer side is often positioned at a pedestrian path, so that the passing experience is influenced;

3) special drainage pipe is generally not laid to the mouth that falls into water, and along with the increase of live time, the ponding vestige after accumulating daily will be very obvious, is difficult for clearing up moreover, when laying special drainage pipe, will influence the pedestrian current again.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a canopy structure with drainage function solves above technical problem.

The utility model provides a technical problem can adopt following technical scheme to realize:

a rain shed structure with a drainage function comprises a shed surface main body, wherein the shed surface main body comprises a shed surface unit connected with a building, the shed surface unit comprises a light transmission panel and four shed surface components arranged on four sides of the light transmission panel, the four shed surface components comprise a front shed surface component, a rear shed surface component, a left shed surface component and a right shed surface component, the front side end surfaces of the left shed surface component and the right shed surface component are attached to the rear side end surface of the front shed surface component, and the rear side end surfaces of the left shed surface component and the right shed surface component are attached to the front side end surface of the rear shed surface component;

the left shed surface component, the rear shed surface component and the right side end surface of the front shed surface component are mutually connected and reinforced through another connecting plate;

any one of the shed surface components is hollow, the upper surface of the shed surface component is an inclined surface, the lower end of the shed surface component is close to the light transmission panel, and the end surface close to the light transmission panel is provided with a water guide port;

the end surface of the shed surface unit connected with the building is provided with a water outlet convenient for being connected with a building sewer pipeline;

the hollow inner cavity of the left shed surface component is respectively communicated with the hollow inner cavities of the front shed surface component and the rear shed surface component forwards and backwards, and the hollow inner cavity of the right shed surface component is respectively communicated with the hollow inner cavities of the front shed surface component and the rear shed surface component forwards and backwards.

The utility model discloses a setting has the canopy face subassembly of slope upper surface and makes it and printing opacity panel combination back shaping be a canopy face unit, the slope structure of the inside hollow structure cooperation upper surface of canopy face subassembly makes the canopy face unit be a canopy structure that has inside water receiving, the tradition of comparing has the canopy structure that leans out and be the abrupt slope, not only can not observe domaticly when observing in the structure outside, thereby make the building present certain aesthetic feeling, and it receives the water guide structure between the water direction cooperation canopy face subassembly to make the rainwater can not drip along the canopy face edge, avoid influencing current experience.

The utility model discloses be convenient for the connection between printing opacity panel and the canopy face subassembly, the terminal surface of connecting at the low position end of the upper surface of arbitrary canopy face subassembly sets up a panel support, the printing opacity panel passes through panel leg joint the canopy face subassembly. The panel bracket can adopt a stainless steel corner connector.

The utility model discloses a balanced every canopy face subassembly set up the atress condition of panel support's terminal surface, the terminal surface of the low position end of the upper surface of each canopy face subassembly sets up two at least along its length extending direction panel support forms the bearing structure who surrounds in printing opacity panel four sides by the panel support on four canopy face subassemblies, and printing opacity panel is placed in the bearing structure of surrounding type.

The utility model discloses place behind the bearing structure at the printing opacity panel, can adopt sealing materials such as glass silica gel to do sealed processing with the seam crossing of structural plane. For example, at the gap between the light-transmitting panel and the end face of each adjacent shed-face assembly. In addition, when the panel bracket is fastened through the fastening piece, the sealing treatment is also carried out after the fastening piece is arranged in each fastening piece hole.

The utility model discloses a prevent blockking up effect when realizing the water guide mouth department sets up the filter screen, the filter screen covers on the water guide mouth. When the water guide port is arranged, the filter screen can be used as a single filter screen plate for covering all the water guide ports and is covered on the whole end face, provided with the water guide ports, of the shed surface component, or an independent filter screen can be arranged at each water guide port to cover the corresponding water guide port. The utility model discloses an in the daily use, jumbo size debris such as leaf can be blockked by the filter screen when mixing in the rainwater flow through the water guide mouth, clear away debris when also being convenient for the routine maintenance clearance.

The inclination angle of the upper surface of any shed surface component is 5-15 degrees. The inclination angle is the angle between the upper surface of the shed surface component and the horizontal plane. Too large an angle of inclination may result in the vertical end face of the structure (e.g. the end face of each shed face assembly connected to the connecting plate) being too large, thereby increasing the thickness of the entire shed face unit, not only consuming material, but also affecting installation and aesthetic appearance. And the inclination angle is too small, so that the difficulty is increased easily when the level is adjusted, and water is accumulated on the shed surface easily.

The shed surface main body comprises at least two shed surface units, at least two shed surface units are adjacent and are connected with each other to form the shed surface of the rain shed.

The connecting plate is provided with a recess, a fastener through hole is formed in the recess, and the connecting plate is connected with the vertical end faces of the outward edges of the shed face components through fasteners after the fasteners are installed in the recess. And (5) sealing the installation of the fastener. For example, glass cement is applied, or a rubber gasket is sleeved before installation.

The outer edge of the shed face main body is provided with a cover plate, and the cover plate is vertically covered on the outer surface of the connecting plate to cover the recess of the outer surface.

The utility model discloses a set up the cover plate, seal the concave-convex structure of the outward flange of canopy face main part for the facade is neat, and forms certain protection to the fastener trompil in sunken, avoids the wind-blown solarization to make the seal structure of trompil department too early ageing.

The cover plate is made of aluminum plates.

Has the advantages that: since the technical scheme is used, the utility model discloses a set up the canopy face subassembly that the upper surface is the indent downwards when overlooking, abandoned falling into water in the traditional structure and looked for the design of slope, consequently had following advantage:

1) when the building and the rain shed are observed from the outer side, the whole outer vertical surface is neat in style, and the design aesthetic feeling is presented;

2) when the canopy surface of the canopy is formed by adopting a single piece of inwards concave canopy surface assembly or a plurality of inwards concave canopy surface assemblies, an integrally inwards concave falling layout is constructed, so that the problem that a falling path influences the passing is avoided, and particularly the problem that long-time water drops at the falling position on the passing path after rain;

3) the drainage and water guide structure arranged in the shed surface component is matched with a building drainage pipeline system, so that accumulated water is drained quickly, the generation speed of surface stain marks caused by accumulated water deposition is slowed down, and the burden of shed surface cleaning and maintenance is relieved.

Drawings

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a top view of FIG. 1;

FIG. 3 is a schematic view of a portion of the structure of FIG. 1;

fig. 4 is a schematic diagram of an application layout of fig. 1.

Detailed Description

In order to make the technical means, creation features, achievement purposes and functions of the present invention easy to understand, the present invention will be further explained with reference to the specific drawings. It is noted that the terms "first," "second," "third," "fourth," and the like (if any) in the description and in the claims of the present invention are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It will be appreciated that the data so used may be interchanged under appropriate circumstances such that the embodiments described herein may be practiced otherwise than as specifically illustrated or described herein. Furthermore, the terms "comprises" or "comprising," and any variations thereof, are intended to cover non-exclusive inclusions, such that a product or apparatus that comprises a list of elements or units is not necessarily limited to those elements or units expressly listed, but may include other elements or units not expressly listed or inherent to such product or apparatus.

Referring to fig. 1, 2 and 3, a rain shed structure with a drainage function comprises a shed surface main body, wherein the shed surface main body comprises a shed surface unit, the shed surface unit comprises a light-transmitting panel 10 and four shed surface components arranged on four sides of the light-transmitting panel 10, and comprises a front shed surface component 21, a rear shed surface component 22, a left shed surface component 23 and a right shed surface component 24, the front side end surfaces of the left shed surface component 23 and the right shed surface component 24 are attached to the rear side end surface of the front shed surface component 21, and the rear side end surfaces of the left shed surface component 23 and the right shed surface component 24 are attached to the front side end surface of the rear shed surface component 22;

the left side end faces of the left shed surface component 23, the rear shed surface component 22 and the front shed surface component 21 are connected and reinforced with each other through a connecting plate 31, and the right side end faces of the right shed surface component 24, the rear shed surface component 22 and the front shed surface component 21 are connected and reinforced with each other through a connecting plate 32;

any one of the four shed surface components is of a hollow structure, the upper surface of the shed surface component is an inclined surface, the inclination angle is 5-15 degrees, the end surface connected with the low position end of the shed surface component is close to the light transmission panel 10, and the high position end of the shed surface component is far away from the light transmission panel 10 relative to the low position end. The end face close to the light transmitting panel 10 is provided with a water guide port 61, so that rainwater falling on the light transmitting panel 10 can be conveniently guided into the hollow inner cavity of the shed surface component, a water outlet can be further formed in the shed surface unit so as to discharge water in the inner cavity, the water outlet is formed in the end face, connected with a building, of the shed surface unit, and then the water outlet is connected with a building sewer pipe through connecting pieces such as hoses.

Wherein, the hollow inner cavity of the left shed surface component 23 is communicated with the hollow inner cavity of the front shed surface component 22 forwards and is communicated with the hollow inner cavity of the rear shed surface component 21 backwards, and the hollow inner cavity of the right shed surface component 24 is communicated with the hollow inner cavity of the front shed surface component 22 forwards and is communicated with the hollow inner cavity of the rear shed surface component 21 backwards. In order to form a structure for communicating the inner cavities, openings can be formed in the front side end face and the rear side end face of the left shed surface assembly and the right shed surface assembly, and the openings are communicated with water guide ports in the rear side end face of the front shed surface assembly or the front side end face of the rear shed surface assembly. For example, as shown in fig. 2 and 3, an opening 62 is formed on the front end surface of the left canopy surface module 23 and the front end surface of the right canopy surface module 24 to communicate with a water guide port on the rear end surface (not shown) of the front canopy surface module.

In some embodiments, the openings formed on the front end surface of the left canopy surface assembly and the front end surface of the right canopy surface assembly may be provided in the same shape as the water guide port 61.

In other embodiments, as shown in fig. 3, for the convenience of installation, the opening 62 formed on the front end surface of the left canopy surface assembly 23 may be configured to be elongated, and the elongated opening 62 covers at least two water guiding openings in the range of the joint area between the front end surface of the left canopy surface assembly 23 and the rear end surface of the front canopy surface assembly in the left-right direction, and similarly, the same elongated opening is formed on the front end surface of the right canopy surface assembly 24.

In some preferred embodiments, the length of the elongated opening is set to cover all water guiding ports in the range of the joint area of the front end face of the left shed face assembly and the rear end face of the front shed face assembly, and similarly, the same elongated opening is also arranged on the front end face of the right shed face assembly to cover all water guiding ports in the range of the joint area of the front end face of the right shed face assembly and the rear end face of the front shed face assembly.

It should be noted that the light-transmitting panel of the present invention can be made of glass, acrylic plate, semi-transparent or full-transparent PVC plate.

The utility model discloses be convenient for the connection between printing opacity panel and the canopy face subassembly, as shown in FIG. 2, the terminal surface of connecting at the low position end of the upper surface of arbitrary canopy face subassembly sets up panel holder 40, and four canopy face subassemblies are connected through panel holder 40 to printing opacity panel 10. The panel bracket 40 may employ a stainless steel corner brace.

In some embodiments, in order to balance the stress condition of the end face of each shed surface component where the panel support is arranged, at least two panel supports 40 are arranged on the end face of the lower end of the upper surface of each shed surface component along the length extension direction of the end face, a supporting structure surrounding the four sides of the light-transmitting panel is formed by the panel supports 40 on the four shed surface components, and the light-transmitting panel 10 is placed in the surrounding type supporting structure.

In addition, for the sluicing function of realizing light-transmitting panel conveniently, prevent its surface ponding, need be installed it to form and be the low-angle slope with the horizontal plane when the installation, at this moment, can set up arbitrary panel support 40 (stainless steel angle sign indicating number) into the structure of liftable to the position through lift adjustment angle sign indicating number realizes the effect that makes the low-angle slope of light-transmitting panel. Specifically, the panel bracket 40 is provided with a vertical waist-shaped hole, the panel bracket 40 is locked on the end face of the low position end of the shed surface component after being matched with a fastener, and the height position of the panel bracket 40 is adjusted through the waist-shaped hole.

It should be noted that, the utility model discloses place behind the bearing structure at the printing opacity panel, can adopt sealing materials such as glass silica gel to do sealing process with the seam crossing of structural plane. For example, at the gap between the light-transmitting panel and the end face of each adjacent shed-face assembly. When the panel bracket is fastened by the fastening member, each fastening hole is also sealed after the fastening member is provided. In addition, the seams between the roof modules need to be sealed correspondingly, for example, at the gaps between the front and rear end surfaces of the left roof module and the front end surfaces of the front and rear roof modules attached thereto.

The utility model discloses when actually setting up, can design the opening size and the opening quantity of leading mouth and outlet according to the area of canopy face unit, especially the area of printing opacity panel and the inclined plane of canopy face subassembly to correspond the ponding condition of amassing the concave upper surface in canopy face unit.

The utility model discloses a prevent blockking up effect when realizing the water guide, set up filter screen (not shown in the figure) in water guide mouth department, the filter screen covers on the water guide mouth. When the device is arranged, the filter screen can be used as a single filter screen plate for covering all the water guide ports and is covered on the whole end face, provided with the water guide ports, of the shed surface component; or, a separate filter screen can be arranged at each water guide opening to cover the corresponding water guide opening. The utility model discloses an in the daily use, jumbo size debris such as leaf can be blockked by the filter screen when mixing in the rainwater flow through the water guide mouth, clear away debris when also being convenient for the routine maintenance clearance.

The utility model discloses in, can set up the quantity of canopy face unit according to the actual conditions of canopy overall arrangement space and needs. In some embodiments, as shown in fig. 4, in case of a wider canopy layout, the canopy body may be configured to include at least two canopy surface units, and the at least two canopy surface units are adjacent and connected to each other to form the entire canopy surface of the canopy, as shown in fig. 4, and the canopy surface unit connected to the wall foundation includes a left canopy surface unit 81 and a right canopy surface unit 82. Alternatively, in some embodiments, in the case of a narrower rainshed layout, the deck body includes a single deck unit, and the lengths of the front and rear deck members in the deck members of the single deck unit are set longer so that they can cover the area where the width of the rainshed is located.

Additionally, as shown in fig. 4, the utility model discloses when being applied to wall facade department, be connected the back canopy face subassembly in the canopy face unit with the outrigger 90 of wall when installing, the wall that does not have outrigger 90 can be in advance behind wall installation outrigger 90 rethread outrigger 90 connect the installation canopy face unit.

When the water outlet is arranged, after the shed surface unit is connected with the wall body, the water outlet can be opened on the end surface (rear side end surface) of the rear shed surface component of the shed surface unit, which is close to the wall body. Alternatively, in the case where a plurality of ceiling units are adjacent to each other, the drain port may be opened on the left side surface of the left ceiling module of the ceiling unit located on the leftmost side, or the drain port may be opened on the right side surface of the right ceiling module of the ceiling unit located on the rightmost side. As shown in fig. 2 and 4, after the ceiling unit 81 and the ceiling unit 82 are connected to the wall, the drain port 50 may be opened on an end surface (rear end surface) of the rear ceiling module 21 of the ceiling unit 81 on the side close to the wall.

It should be noted that, in order to increase the strength and stability of the connection structure, the front-back width of the rear canopy surface assembly may be set to be larger, and the front-back width of the front canopy surface assembly may be set to be smaller, so as to avoid the structural deformation caused by the larger self-weight.

The utility model discloses do following setting to the connecting plate: as shown in fig. 3, the left connecting plate 31 is provided with a recess, and a fastener through hole (not shown) is provided in the recess, so that the connecting plate 31 can be connected with the left vertical end faces of the left shed surface assembly, the rear shed surface assembly and the front shed surface assembly on the right side of the connecting plate through fasteners after the fasteners are installed in the recess. And (5) sealing the installation of the fastener. For example, glass cement is applied, or a rubber gasket is sleeved before installation. In the above embodiment, the outer edge of the shed surface main body is provided with the cover plate (not shown in the figure), and the cover plate vertically covers the outer surface of the connecting plate and covers the recess, so that the vertical surface is neat, the holes of the fasteners in the recess are protected to a certain extent, and the sealing structure at the holes is prevented from being aged too early due to wind and sunlight. The cover plate may be made of aluminum plate. In addition, when the right connecting plate 32 is not attached to the connecting plate on the shed surface component of another shed surface unit rightwards, a cover plate can be covered; when the right connecting plate 32 is attached to the connecting plate of the deck assembly of another deck unit to the right, the attachment portion may be sealed with a glass cement. The two adjacent connecting plates can be mutually fastened and connected through fasteners or corner connectors and then are sealed.

To sum up, the utility model discloses a setting has the canopy face subassembly of slope upper surface and makes it and printing opacity panel combination back shaping be a canopy face unit to form one and have the canopy structure of inwards receiving water, the tradition of comparing has and leans out the canopy structure that is the abrupt slope, not only can not observe domaticly when observing in the structure outside, thereby make the building present certain aesthetic feeling, its water guide structure of receiving between the water direction cooperation canopy face subassembly makes the rainwater can not drip along canopy face edge moreover, can not influence the impression when the pedestrian passes through.

The basic principles and the main features of the invention and the advantages of the invention have been shown and described above. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (9)

1. A rain shed structure with a drainage function comprises a shed surface main body and is characterized in that the shed surface main body comprises a shed surface unit, the shed surface unit comprises a light transmission panel and four shed surface components arranged on four sides of the light transmission panel, the four shed surface components comprise a front shed surface component, a rear shed surface component, a left shed surface component and a right shed surface component, front side end surfaces of the left shed surface component and the right shed surface component are attached to rear side end surfaces of the front shed surface component, and rear side end surfaces of the left shed surface component and the right shed surface component are attached to front side end surfaces of the rear shed surface component;

the left shed surface component, the rear shed surface component and the right side end surface of the front shed surface component are mutually connected and reinforced through another connecting plate;

the upper surface of any one of the shed surface components is an inclined surface, and the lower end of the inclined surface is close to the light-transmitting panel;

any one of the shed surface components is hollow, the end surface of the shed surface component connected with the light-transmitting panel is provided with a water guide port, and the end surface of the shed surface component connected with the building is provided with a water outlet convenient for being connected with a building sewer;

the hollow inner cavity of the left shed surface component is respectively communicated with the hollow inner cavities of the front shed surface component and the rear shed surface component forwards and backwards, and the hollow inner cavity of the right shed surface component is respectively communicated with the hollow inner cavities of the front shed surface component and the rear shed surface component forwards and backwards.

2. A shed structure with a drainage function as claimed in claim 1, wherein a panel support is provided at the end face connected to the lower end of the upper surface of any one of the shed surface components, and the light-transmitting panel is connected to the shed surface component through the panel support.

3. A shelter structure as claimed in claim 2 in which at least two of said panel supports are provided along the length of the upper surface of each of the canopy members at the lower end of the upper surface, the support structure being formed by the panel supports of the four canopy members to surround the sides of the light transmitting panel, the light transmitting panel being disposed in the surrounding support structure.

4. A shed structure with drainage function as claimed in any one of claims 1 to 3, wherein a filter screen is provided at the water guide opening, and the filter screen covers the water guide opening.

5. A shed structure with a drainage function as claimed in claim 4, wherein the angle of inclination of the upper surface of any one of the shed surface components is 5 to 15 degrees.

6. A shed structure with a drainage function as claimed in claim 5, wherein said shed body comprises at least two shed surface units, and at least two shed surface units are adjacent and connected with each other to form a shed surface of the shed.

7. A shelter structure as claimed in any one of claims 1 to 3 in which the connection plate is provided with a recess in which there is a fastener through hole.

8. A shed structure with a drainage function as claimed in claim 7, wherein the outer edge of the shed surface main body is provided with a cover plate, and the cover plate is vertically covered on the outer surface of the connecting plate to cover the concave part of the outer surface.

9. A rainshed structure with a drainage function as claimed in claim 8, wherein the cover plate is made of an aluminum plate.

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