Wall surface eave type quick-mounting rain shed
By prefabricating horizontal tube frames and rain gutter support components in the workshop, and combining this with simple on-site installation, the problem of low construction efficiency of wall-mounted eaves canopies has been solved, achieving efficient and aesthetically pleasing canopy installation.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- BEIJING KANGZHIWEI SCI & TECH
- Filing Date
- 2025-04-17
- Publication Date
- 2026-07-07
Smart Images

Figure CN224468686U_ABST
Abstract
Description
Technical Field
[0001] This invention relates to a wall-mounted eaves type awning, and more particularly to a wall-mounted eaves type quick-installation awning. Background Technology
[0002] As a supplier of technical equipment and facilities for public toilets, we frequently encounter construction projects involving the installation of eaves canopies on the exterior walls of public toilets. These toilets originally had eaves, but with increasing energy-saving requirements, the forced ventilation system, which normally operates daily, is often replaced by window ventilation when weather conditions are suitable. This renders the original eaves insufficient for rain protection, necessitating specially installed eaves canopies above the windows to block rain when they are open. Furthermore, to prevent direct sunlight from causing high temperatures on the toilet walls, sunshades are also needed on the sun-facing side of the toilet. However, labor costs are currently high. Existing on-site fabrication and installation of eaves canopies is not only inefficient but also extremely labor-intensive, often resulting in labor costs equaling or even exceeding the cost of the canopy materials. In contrast, fabricating canopy components in a production workshop, due to the widespread use of highly mechanized and automated production methods, offers significantly higher efficiency and lower costs. Therefore, there is an urgent need for wall-mounted eaves-style quick-installation awnings that can significantly improve the efficiency and quality of installation. More importantly, with rising aesthetic standards for public restrooms, many irregular wall surfaces, including curved ones, have emerged. This results in lower on-site processing and installation efficiency, makes it difficult to ensure aesthetics, and often requires a second coat of paint for protection after installation, further impacting installation quality and efficiency. Utility Model Content
[0003] The purpose of this invention is to overcome the above-mentioned defects of the prior art and provide a wall-mounted eaves type quick-installation awning.
[0004] To achieve the above objectives, this novel wall-mounted eaves-type quick-installation awning is characterized by horizontal tube frames parallel to the wall, spaced apart with wall-mounted brackets for fixing to the wall. Hook-type rain gutter supports are fastened between adjacent wall-mounted brackets. The extended arm of the hook-type rain gutter support extends downwards from the wall side to fix the wall, while the shorter arm extending downwards from the rain gutter side connects to the base of the downward-sloping rain gutter. The downward-sloping rain gutter, with its base and hook-type rain gutter support respectively, has an upward-turned edge rain gutter and an adjacent fastening edge rain gutter. Thus, the downward-sloping rain gutter and its accessories are prefabricated in the workshop, the wall-mounted brackets are also factory-finished products, and the horizontal tube frames can be pre-cut or bent, or arbitrarily cut and bent on-site while being held in place by the wall-mounted brackets. During installation, simply fix the wall-mounted brackets with horizontal pipe supports at intervals on the wall, then fasten the hook-type rain gutter supports to the horizontal pipe supports between adjacent wall-mounted brackets, and arrange the hook-type rain gutter supports and their bases, along with the adjacent side rain gutters and the snap-on rain gutters, so that the upper edge of the side rain gutter is fastened together with the snap-on edge of the adjacent snap-on rain gutter. Finally, fix the wall-side downward extension arm of the hook-type rain gutter support to the wall. This completes the installation. Although there is a gap between the rear end of the downward-sloping rain gutter and the wall, there will be no leakage because there is an eave or wall top overhang above the gap. The on-site wall surface is convex and the horizontal pipe frame is curved. When the downward-sloping rain gutters are designed as isosceles trapezoids or fan-shaped structures that are narrower at the back and wider at the front, an adjacent stacked flanged design can be used. This allows for a large-aperture isosceles trapezoidal or fan-shaped downward-sloping rain gutters, enabling a stacked installation method that reduces the curvature. This also makes it easier to adapt to the large-aperture on-site installation needs by adjusting the stacking angle. The entire installation process requires only two snap-fit operations and two nailing operations, making it very quick and efficient. Therefore, it offers advantages such as all components being prefabricated in the workshop, on-site installation requiring only two nails and two snaps, and the ability to adapt to curved wall surfaces on-site, enabling quick assembly and significantly saving installation manpower while maintaining high installation efficiency.
[0005] As an optimization, the aforementioned edge rain gutter and snap-on rain gutter are respectively upper edge rain gutter and lower edge rain gutter with upturned edges, and can be interlocked by adjacent upper and lower edges. Compared with the same upper edge interlocking method below, this method of interlocking adjacent edges can adapt to the overlapping installation of upper and lower parts of isosceles trapezoidal or fan-shaped rain gutters, and is more convenient to adjust the overlapping edges according to the curvature of the wall surface, with exceptionally good on-site adaptability. The two side edges are parallelograms with equal vertical height, which facilitates manufacturing and installation; or they are oblique cones with a shorter front and longer back vertical height, which saves materials and helps to ensure the overall structural strength.
[0006] Alternatively, both the side-mounted rain gutter and the snap-on rain gutter can be forward-facing scoop-type rain gutters composed of a front sloping bottom plate, a rear vertical edge, and two side vertical edges. The two side vertical edges of the forward-facing scoop-type snap-on rain gutter each have outward-facing snap-on edges that interlock with the side vertical edges of the adjacent forward-facing scoop-type side-mounted rain gutter. Compared to the previous method, this results in better overall structural strength of the rain gutter and is more conducive to the fixation and support of the base for the rain gutter. The two side vertical edges are parallelograms with equal vertical height, facilitating manufacturing and installation; or they can be sloping cones with a shorter front and longer rear vertical height, saving materials while ensuring overall structural strength.
[0007] As an optimization, the adjacent interlocking is such that the upper edge of the rain gutter and the lower edge of the rain gutter are parallel and adjacent, with the lower edge of the lower edge of the rain gutter interlocking onto the upper edge of the adjacent upper edge of the rain gutter. This allows for adjustment of the lateral distance between the lower and upper edges of the interlocking rain gutter to accommodate the error between the factory-installed rain gutter opening and the on-site installation opening. In other words, a factory-set intermediate opening size is used; if the on-site opening is small, the lateral distance is shortened; if the on-site opening is large, the lateral distance is increased. This accommodates convex and concave wall panels, addressing issues of inaccurate curvature measurements and misalignment of the manufacturing opening. This method can also be used on flat walls to solve the problem of difficult edge interlocking for certain rain gutter materials.
[0008] The side-mounted connection consists of a forward-facing scoop-type side-mounted rain gutter and a forward-facing scoop-type snap-on side-mounted rain gutter arranged side-by-side. The side-mounted edge of the forward-facing scoop-type side-mounted rain gutter is inserted upwards into the downward groove between the side-mounted edge of the adjacent forward-facing scoop-type snap-on side-mounted rain gutter and its lower snap-on edge. This design provides strong rain-bearing capacity, facilitates the use of gently sloping rain gutters, provides more space under the canopy, and also helps to ensure and improve the ventilation effect of opening windows under the canopy.
[0009] As an optimization, during adjacent snap-fit assembly, the horizontal tube frame parallel to the wall is fixed to the wall surface through spaced wall ties. Two hook-type gutter supports are respectively snapped onto the horizontal tube frames on both sides of a wall ties. The structure is simple and has good suspension support capacity. The base of one hook-type gutter support with its extended short arm is fixed to the rear end of the upward-turned-edge upper gutter. The base of the other hook-type gutter support with its extended short arm is fixed to the rear end of the downward-turned-edge lower gutter. The lower edge of the downward-turned-edge lower gutter is snapped onto the upper edge of the adjacent upward-turned-edge upper gutter. Compared with the method below, it is easier to snap and install.
[0010] When assembling the side-mounted joint type, the horizontal tube frame parallel to the wall surface is fixed to the wall surface through spaced wall ties. Two hook-shaped rain gutter supports are respectively fastened to the horizontal tube frames on both sides of one wall ties. The structure is simple and has good suspension support capacity. The base of one hook-shaped rain gutter support is fixed to the rear end of the forward-facing scoop-type side rain gutter, and the base of the other hook-shaped rain gutter support is fixed to the rear end of the forward-facing scoop-type edge-locking rain gutter. The side-mounted edge of the forward-facing scoop-type edge-locking rain gutter is inserted upward into the lower groove between the side-mounted edge and the lower locking edge of the adjacent forward-facing scoop-type edge-locking rain gutter. Compared with the above method, the overall structural strength of the rain gutter is better.
[0011] As an optimization, the adjacent interlocking base is upright or inverted forward L-shaped. The forward extension arm of the upright or inverted forward L-shaped base supports and fixes the rear end plate of the upper flanged rain gutter, and the forward extension arm of the upright or inverted forward L-shaped base supports and fixes the rear end top plate of the lower flanged rain gutter. The forward L-shaped base can not only support and fix the rear end plate and top plate of the rain gutter, but also does not hinder the upper and lower flanges from interlocking.
[0012] The side-mounted, interlocking, upright plate base is fixed to the rear end wall of the scoop-type side gutter or the scoop-type interlocking side gutter. This ensures a secure connection without interfering with adjacent connections and without affecting the integrity of the scoop-type gutter's base plate.
[0013] As an optimization, the sum of the width of the forward-facing L-shaped base and the outer width of the wall-connecting seat is less than the width of the rear bottom plate of the upward-turned upper side rain gutter and the rear top plate of the downward-turned lower side rain gutter. Similarly, the sum of the width of the vertical plate base and the outer width of the wall-connecting seat is less than the rear wall width of the scoop-type upper side rain gutter and the rear wall width of the scoop-type lower side rain gutter. This provides a minimum of the thickness of the vertical plate portion of the base for movement between the wall-connecting seat and the rear end of the rain gutter, facilitating installation and maintenance.
[0014] As an optimization, the front-sloping rain gutter can be a rectangle with parallel sides, or an isosceles trapezoid that is narrower at the back and wider at the front, or vice versa. Rectangles are suitable for flat walls, while isosceles trapezoids that are narrower at the back and wider at the front, or vice versa, are suitable for convex and concave curved walls, respectively. The bottom or top plate of the front-sloping rain gutter can be a flat plate, or at least have longitudinally spaced transverse protrusions in the front middle section, which significantly improves the bending resistance of the bottom or top plate.
[0015] As an optimization, at least the front side of the isosceles trapezoid is a convex or concave arc. A convex or concave arc at the front ensures that the outer edge of the canopy is parallel to the curved wall surface, which is beneficial for even rainwater flow and overall aesthetics. A convex or concave arc at the rear also ensures that the outer edge of the canopy is parallel to the curved wall surface and reduces the gap between the rain gutters and the wall surface.
[0016] As an optimization, the horizontal tube frame is a horizontal circular tube; the wall connector is a wall panel that is obliquely connected to the wall surface for fixing to the wall, with a ring for internally fitting the horizontal tube frame or for hooking the open hook on the horizontal tube frame; the inverted hook-type rain gutter support has an extended arm on its wall side for fitting against and fixing to the wall surface, and a short extended arm on its rain gutter side for fixing to the base of the forward-sloping rain gutter, with its lower opening for fastening to the horizontal tube frame between adjacent wall connectors. The structure is simple, provides stable support, and is easy to install.
[0017] As an optimization, the wall panel is fixed to the ring outward and downward via a connecting plate perpendicular to the ring's axis. The lower part of the side-extended short arm of the inverted gutter support is fixed to the base, and the upper part of the side-extended short arm is fixed to the upper part of the base via a connecting plate perpendicular to the ring's axis. This results in a simpler structure, more stable support, and easier installation. The horizontal circular tube is made of easily bendable material, such as copper, aluminum, or plastic. The inner circumference of the ring and the downward arc of the inverted gutter support are larger than the tube, allowing the bent tube to pass smoothly through the inner circumference of the ring and the downward arc of the inverted gutter support.
[0018] In summary, it is suitable for straight walls with overhanging eaves, and for curved walls with inward and outward convex shapes. It can also be adapted to straight walls without overhanging eaves and curved walls with inward and outward convex shapes by adding a rear base eave. The wall ties, horizontal tube frames, front-sloping rain gutters, their additional bases, and hook-type rain gutter supports are all factory-made. The horizontal tube frames can be made of deformable materials to meet the needs of on-site bending installation. The front-sloping rain gutter body is preferably made of corrosion-resistant and aging-resistant composite resin material through mold extrusion molding to improve standardization and installation efficiency. During installation, the wall ties with horizontal tube frames are installed on the wall at set intervals using screws. The hook-type rain gutter supports of the front-sloping rain gutters are then sequentially fastened onto the horizontal tube frames between adjacent wall ties. The rain gutters on the same side of adjacent front-sloping rain gutters are fastened to the adjacent sides of the fastened rain gutters. Finally, the hook-type rain gutter supports are fixed to the wall with screws.
[0019] After adopting the above technical solution, this new type of wall-mounted eaves quick-installation awning has the advantages that all components can be prefabricated in the workshop, the construction site can be as simple as two nails and two fasteners, and in particular, it can be installed on the curved wall on site to achieve quick assembly, which saves a lot of installation manpower and has high installation efficiency. Attached Figure Description
[0020] Figure 1 This is a side view of the structure of the first embodiment of the wall-mounted eaves quick-installation canopy of this utility model, applicable to the installation state of the side rain gutter on a straight wall. Figure 2 This is a side view of the first embodiment of the wall-mounted eaves quick-installation canopy of this utility model, applicable to the installation state of the edge-locking rain groove on a straight wall. Figure 3This is a top view of the first embodiment of the wall-mounted eaves quick-installation canopy of this utility model, applicable to the installation state of the central edge rain groove and the two side edge rain grooves on a straight wall. Figure 4 This is a schematic diagram of the top-down side view of the second embodiment of the wall-mounted eaves quick-installation awning of this utility model, applicable to curved walls; Figure 5 This is a top view of the second embodiment of the wall-mounted eaves quick-installation canopy of this utility model, applicable to the edge-locking rain groove structure of curved walls; Figure 6 This is a top view of the second embodiment of the wall-mounted eaves quick-installation canopy of this utility model, which is applicable to the configuration of a central edge rain groove and two side edge rain grooves with the curved branch pipe on a curved wall. Figure 7 This is a top view of the third embodiment of the wall-mounted eaves quick-installation canopy of this utility model, applicable to the configuration of a central edge rain groove and two side edge rain grooves with the curved branch pipe on a curved wall. Figure 8 This is a schematic diagram of the fourth embodiment of the wall-mounted eaves quick-installation awning, applicable to curved walls, from a top-down view. Figure 9 This is a top view schematic diagram of the fourth embodiment of the wall-mounted eaves quick-installation awning of this utility model, applicable to the edge-locking rain groove structure of curved walls; Figure 10 This is a top view schematic diagram of the fourth embodiment of the wall-mounted eaves quick-installation canopy of this utility model, applicable to the configuration of a central edge rain groove and two side edge rain grooves with the curved branch pipe on a curved wall. Detailed Implementation
[0021] Example 1, as Figure 1-3As shown, this utility model of a wall-mounted eaves-type quick-installation awning consists of horizontal tube frames 2 parallel to the wall surface 1, with wall-mounted brackets 3 spaced apart for fixing to the wall surface. The horizontal tube frames 2 are fitted with hook-type rain gutter supports 4 between adjacent wall-mounted brackets 3. The extended arm on the wall side of the hook-type rain gutter support 4 is used to fix the wall surface 1, and the shorter arm on the rain gutter side of the hook-type rain gutter support 4 is fixed to the base 5 of the front downward-sloping rain gutter. The front downward-sloping rain gutter, with the base 5 and the hook-type rain gutter support 4 respectively, has an upward-turned edge rain gutter and an adjacent snap-fit edge rain gutter. Thus, the front downward-sloping rain gutter and its accessories are prefabricated in the manufacturing workshop, the wall-mounted brackets are also factory-finished products, and the horizontal tube frames can be pre-cut or bent, or arbitrarily cut on-site and installed in a bent shape while being held in place by the wall-mounted brackets. During installation, simply fix the wall-mounted brackets with horizontal pipe supports at intervals on the wall, then fasten the hook-type rain gutter supports to the horizontal pipe supports between adjacent wall-mounted brackets, and arrange the hook-type rain gutter supports and their bases, along with the adjacent side rain gutters and the snap-on rain gutters, so that the upper edge of the side rain gutter is fastened together with the snap-on edge of the adjacent snap-on rain gutter. Finally, fix the wall-side downward extension arm of the hook-type rain gutter support to the wall. This completes the installation. Although there is a gap between the rear end of the downward-sloping rain gutter and the wall, there will be no leakage because there is an eave or wall top overhang above the gap. The on-site wall surface is convex and the horizontal pipe frame is curved. When the downward-sloping rain gutters are designed as isosceles trapezoids or fan-shaped structures that are narrower at the back and wider at the front, an adjacent stacked flanged design can be used. This allows for a large-aperture isosceles trapezoidal or fan-shaped downward-sloping rain gutters, enabling a stacked installation method that reduces the curvature. This also makes it easier to adapt to the large-aperture on-site installation needs by adjusting the stacking angle. The entire installation process requires only two snap-fit operations and two nailing operations, making it very quick and efficient. Therefore, it offers advantages such as all components being prefabricated in the workshop, on-site installation requiring only two nails and two snaps, and the ability to adapt to curved wall surfaces on-site, enabling quick assembly and significantly saving installation manpower while maintaining high installation efficiency.
[0022] Specifically, both the side rain gutter and the snap-on rain gutter are forward-facing scoop-type rain gutters composed of a front lower sloping bottom plate, a rear vertical edge, and two side vertical edges. The two side vertical edges of the forward-facing scoop-type snap-on rain gutter 62 are respectively provided with a lower snap-on edge 621 that snaps onto the side vertical edge of the adjacent forward-facing scoop-type side rain gutter 61. The two side vertical edges are oblique cones with a shorter front and longer rear vertical height, or they can be parallelograms with equal vertical height.
[0023] More specifically, the side-standing edge fastening is that the forward scoop-type side rain groove 61 and the forward scoop-type edge-fastening rain groove 62 are arranged side by side and adjacent to each other. The side-standing edge of the forward scoop-type side rain groove 61 is inserted upward into the downward groove between the side-standing edge of the adjacent forward scoop-type edge-fastening rain groove 62 and its lower edge 621. During the side-mounted snap-fit assembly, the horizontal tube frame 2 parallel to the wall surface 1 is fixed to the wall surface 1 by the wall connectors 3 arranged at intervals. Two hook-shaped rain gutter supports 4 are respectively snapped onto the horizontal tube frame 2 on both sides of one wall connector 3. The base 5 of the short arm of one hook-shaped rain gutter support 4 is fixed to the rear end of the forward scoop-type side rain gutter 61. The base 5 of the short arm of the other hook-shaped rain gutter support 4 is fixed to the rear end of the forward scoop-type snap-fit side rain gutter 62. The side-mounted edge of the forward scoop-type side rain gutter 61 is inserted upward into the lower groove between the side-mounted edge of the adjacent forward scoop-type snap-fit side rain gutter 62 and its lower snap-fit edge 621.
[0024] More specifically, the side-mounted, interlocking plate base 5 is fixed to the rear end wall of either the scoop-type side rain gutter 61 or the scoop-type interlocking side rain gutter 62. Even more specifically, the sum of the width of the plate base 5 and the outer width of the wall-connecting seat 3 is less than the width of the rear end wall of the scoop-type side rain gutter 61 and the width of the rear end wall of the scoop-type interlocking side rain gutter 62.
[0025] Specifically, the front-sloping rain gutter is a rectangle with parallel sides, or it can be an isosceles trapezoid that is narrower at the back and wider at the front or vice versa.
[0026] Specifically, the horizontal tube frame 2 is a horizontal round tube; the wall connector 3 is a wall panel for fixing to the wall surface 1, which is obliquely connected to a ring for internally fitting the horizontal tube frame 2, or it can be a hook for hooking the open hook on the horizontal tube frame; the inverted hook-type rain gutter support 4 has a wall-side extended arm for fitting against and fixing to the wall surface 1, and a rain gutter side extended short arm for fixing to the base 5 of the front downward oblique rain gutter, and its lower opening is used to fasten onto the horizontal tube frame 2 between adjacent wall connectors 3.
[0027] More specifically, the wall panel is fixed to the ring outward and downward via a connecting plate perpendicular to the ring's axis. The lower part of the side-extended short arm of the hook-shaped rain gutter support 4 is fixed to the base 5, and the upper part of the side-extended short arm is fixed to the upper part of the base 5 via a connecting plate perpendicular to the ring's axis. The horizontal circular tube is a pipe that is easy to bend, such as copper, aluminum, or plastic. The inner circumference of the ring and the downward arc of the hook-shaped rain gutter support 4 are larger than the pipe, so that the bent pipe can still pass smoothly through the inner circumference of the ring and the downward arc of the hook-shaped rain gutter support 4.
[0028] Example 2, as Figure 4-6As shown, the difference between this utility model's wall-mounted eaves-type quick-installation awning and the above-mentioned embodiment one is that the front downward sloping rain shield is an isosceles long trapezoid that is narrower at the back and wider at the front. The bottom plate (or top plate) of the front downward sloping rain shield has longitudinally spaced transverse protrusions 8 in the middle and front part.
[0029] Example 3, as Figure 7 As shown, the difference between the wall-mounted eaves quick-installation awning of this utility model and the above-mentioned embodiment 2 is that the front side of the isosceles trapezoid is a forward-convex arc shape.
[0030] Example 4, as Figure 8-10 As shown, the difference between the wall-mounted eaves quick-installation awning of this utility model and the above-mentioned embodiment three is that: the side rain groove and the snap-on rain groove are respectively the upper side rain groove 71 and the lower snap-on rain groove 72 with the upper and lower flip-up edges, and can be snapped together by adjacent upper flip-up edges 711 and lower flip-up edges 721; the adjacent snap-on connection is that the upper side rain groove 71 and the lower snap-on rain groove 72 are parallel and adjacent, and the lower flip-up edge 721 of the lower snap-on rain groove 72 is snapped onto the upper flip-up edge 711 of the parallel and adjacent upper side rain groove 71. The two flanges are parallelograms with equal vertical heights, or they can be oblique cones with a shorter front and longer back vertical heights. When assembling adjacent joints, the horizontal tube frame 2 parallel to the wall surface 1 is fixed to the wall surface 1 by the wall connecting seats 3 arranged at intervals. The two hook-type rain gutter supports 4 are respectively fastened to the horizontal tube frame 2 on both sides of a wall connecting seat 3. The base 5 of the downward extension short arm of one hook-type rain gutter support 4 is fixed to the rear end of the upward-facing upward-flipped upper side rain gutter 71. The base 5 of the downward extension short arm of the other hook-type rain gutter support 4 is fixed to the rear end of the downward-facing downward-flipped lower side rain gutter 72. The lower flange 721 of the downward-facing downward-flipped lower side rain gutter 72 is fastened to the upper flange 711 of the adjacent upward-flipped upper side rain gutter 71. The adjacent interlocking base 5 is an upright forward-facing L-shape, or it can be an inverted forward-facing L-shape. The forward extension of the upright (or inverted) forward-facing L-shaped base 5 supports and fixes the rear end plate of the upward-flipped upper side rain gutter 71, and the forward extension of the upright (or inverted) forward-facing L-shaped base 5 supports and fixes the rear end top plate of the downward-flipped lower side rain gutter 72. The sum of the width of the forward-facing L-shaped base 5 and the width of the outer end of the wall-connecting seat 3 is less than the width of the rear end bottom plate of the upward-flipped upper side rain gutter 71 and the rear end top plate of the downward-flipped lower side rain gutter 72. The forward-sloping rain gutter is an isosceles long trapezoid that is narrower at the back and wider at the front (or wider at the back and narrower at the front).
[0031] In summary, this new type of wall-mounted eaves quick-installation awning has the advantages that all components can be prefabricated in the workshop, the construction site can be as simple as two nails and two fasteners, and it can also be adapted to curved wall surfaces on site, achieving quick assembly and saving a lot of installation manpower, and the installation and construction efficiency is high.
Claims
1. A wall-mounted eaves type quick-installation awning, characterized in that... A horizontal tube frame parallel to the wall is spaced apart with wall ties for fixing to the wall. The horizontal tube frame is fitted with a hook-type rain gutter support between adjacent wall ties. The wall-side extended arm of the hook-type rain gutter support is used to fix the wall. The rain gutter side extended short arm of the hook-type rain gutter support is fixed to the base of the front downward slope rain gutter. The front downward slope rain gutter of the base and the hook-type rain gutter support are respectively configured with an upward-turned edge rain gutter and an adjacent snap-fit edge rain gutter.
2. The wall-mounted eaves type quick-installation awning according to claim 1, characterized in that... The aforementioned edge rain groove and snap-on edge rain groove are respectively the upper edge rain groove and the lower snap-on edge rain groove of the upper and lower flanges, and can be snapped together by adjacent upper and lower flanges; the two flanges are parallelograms with equal vertical height or oblique cones with a shorter front and longer back vertical height. Alternatively, both the side rain gutter and the snap-on rain gutter are forward-facing scoop-type rain gutters composed of a front lower sloping bottom plate, a rear vertical edge, and two side vertical edges. The two side vertical edges of the forward-facing scoop-type snap-on rain gutter are respectively provided with a lower snap-on edge that snaps onto the side vertical edge of the adjacent forward-facing scoop-type side rain gutter. The two side vertical edges are parallelograms with equal vertical height or oblique cones with a shorter front and longer rear vertical height.
3. The wall-mounted eaves type quick-installation awning according to claim 2, characterized in that... The adjacent fastening is that the upper side rain groove and the lower side rain groove are side by side and adjacent to each other, and the lower flange of the lower side rain groove is fastened to the upper flange of the side by side and adjacent to the upper side rain groove. The side-standing edge fastening consists of a forward-facing scoop-type side rain groove and a forward-facing scoop-type edge-fastening rain groove arranged side by side, with the side-standing edge of the forward-facing scoop-type side rain groove inserted upward into the downward groove between the side-standing edge of the adjacent forward-facing scoop-type edge-fastening rain groove and its lower edge.
4. The wall-mounted eaves type quick-installation awning according to claim 2, characterized in that... When assembling adjacent joints, the horizontal tube frame parallel to the wall is fixed to the wall by the wall ties arranged at intervals. Two hook-type rain gutter supports are respectively fastened to the horizontal tube frames on both sides of a wall ties. The base of one hook-type rain gutter support with its extended short arm is fixed to the rear end of the upward-turned edge type upper side rain gutter. The base of the other hook-type rain gutter support with its extended short arm is fixed to the rear end of the downward-turned edge type lower side rain gutter. The lower edge of the downward-turned edge type lower side rain gutter is fastened to the upper edge of the adjacent upward-turned edge type upper side rain gutter. During the side-mounted snap-fit assembly, the horizontal tube frame parallel to the wall surface is fixed to the wall surface by the spaced wall ties. Two hook-shaped rain gutter supports are respectively snapped onto the horizontal tube frames on both sides of a wall ties. The base of one hook-shaped rain gutter support with its extended short arm is fixed to the rear end of the forward scoop-type side rain gutter. The base of the other hook-shaped rain gutter support with its extended short arm is fixed to the rear end of the forward scoop-type snap-fit side rain gutter. The side-mounted edge of the forward scoop-type side rain gutter is inserted upward into the lower groove between the side-mounted edge and the lower snap-fit edge of the adjacent forward scoop-type snap-fit side rain gutter.
5. The wall-mounted eaves type quick-installation awning according to claim 4, characterized in that... The adjacent interlocking base is upright or inverted forward L-shaped. The upper extension of the upright or inverted forward L-shaped base supports and fixes the rear end plate of the upper flanged rain gutter. The upper extension of the upright or inverted forward L-shaped base supports and fixes the rear end top plate of the lower flanged rain gutter. The side-mounted, snap-fit type vertical plate base is fixed to the rear end wall of the scoop-type side rain gutter or the rear end wall of the scoop-type snap-fit side rain gutter.
6. The wall-mounted eaves type quick-installation awning according to claim 5, characterized in that... The sum of the width of the forward L-shaped base and the width of the outer end of the wall-connecting seat is less than the width of the rear bottom plate of the upturned edge type upper side rain gutter and the rear top plate of the downturned edge type lower side rain gutter. The sum of the width of the vertical plate base and the width of the outer end of the wall-connecting seat is less than the width of the rear wall of the scoop-type side rain gutter and the width of the rear wall of the scoop-type edge rain gutter.
7. The wall-mounted eaves type quick-installation awning according to any one of claims 1-6, characterized in that... The front downward sloping rain shield is a rectangle with parallel sides or an isosceles long trapezoid that is narrower at the back and wider at the front or vice versa. The bottom plate or top plate of the front downward sloping rain shield is a flat plate or has longitudinally spaced transverse protrusions at least in the middle and front part.
8. The wall-mounted eaves type quick-installation awning according to claim 7, characterized in that... At least the front side of the isosceles trapezoid is a convex or concave arc shape.
9. The wall-mounted eaves type quick-installation awning according to any one of claims 1-6, characterized in that... The horizontal tube frame is a horizontal round tube; the wall connector is a wall panel that is obliquely connected to the wall surface for fixing to the wall surface, and is used to internally fit the horizontal tube frame or to hook the open hook on the horizontal tube frame; the hook-type rain gutter support has an extended arm on its wall side for fitting against and fixing to the wall surface, and a short extended arm on its rain gutter side for fixing to the base of the front downward oblique rain gutter, and its lower opening is used to fasten to the horizontal tube frame between adjacent wall connectors.
10. The wall-mounted eaves type quick-installation awning according to claim 9, characterized in that... The wall panel is fixed to the ring outward and downward by a connecting plate perpendicular to the ring axis. The lower part of the side extension short arm of the hook-shaped rain gutter support is fixed to the base. The upper part of the side extension short arm and the upper part of the base are fixed together by a connecting plate perpendicular to the ring axis.