Water barrier window
The water-blocking window design addresses infiltration issues by using drainage grooves and flow guides to redirect water, ensuring effective drainage and protection against damage.
Patent Information
- Authority / Receiving Office
- FR · FR
- Patent Type
- Utility models
- Current Assignee / Owner
- ZHEJIANG DONGRUI IND & TRADE CO LTD
- Filing Date
- 2025-01-14
- Publication Date
- 2026-06-12
AI Technical Summary
Current windows in sheet metal barracks allow water infiltration due to gaps at connections, leading to damage and permeability issues during heavy rain.
A water-blocking window design featuring an external and internal window element with water drainage grooves and blocking elements, guided by a flow structure to direct water away from the window perimeter.
Effectively guides water away from the window, reducing continuous contact and preventing infiltration, thus minimizing damage and enhancing drainage efficiency.
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Abstract
Description
Title of the invention: water-resistant window BACKGROUND OF THE INVENTION 1. Technical field
[0001] The present invention relates to the technical field of aluminium alloy windows, and in particular a water-resistant window. 2. Description of related art
[0002] On current construction sites, in order to meet the needs for temporary accommodation, sheet metal barracks are often assembled for the accommodation of workers and for storage needs, however during assembly and use, the sheet metal barracks which are of concave and convex shapes, leave a gap at the connection between window and walls, and during heavy rain, the gaps easily allow water to pass through at the connections.
[0003] Current windows use the arrangement of rubber strips to reduce the possibility of infiltration, however the problem of water already infiltrated is not treated, and the connections are easily damaged when they soak in water. BRIEF DESCRIPTION OF THE INVENTION
[0004] Object of the invention: The object of the present invention is to provide a water-resistant window which solves the problem of water infiltration and its continuous contact with the window, which causes damage and permeability of the connections.
[0005] Technical solution:
[0006] A water-blocking window, characterized in that it comprises an external window and an internal window element, water drainage grooves are arranged between said external window and said internal window element, water blocking elements are fixedly installed inside said water drainage grooves on both sides, a flow guide structure is connected to said water drainage grooves on the upper side of said external window.
[0007] Preferably, said water blocking elements comprise a main element, a flow guide part is connected to the upper side of said main element, said flow guide part is arranged in an inclined manner, a side wall of said main element is provided with a connecting part for fixing, flow cavities are formed between said connecting part, said flow guide part and said main element.
[0008] Preferably, the water-blocking elements are arranged respectively on the upper and lower sides of the water drainage grooves on both sides, the elements Water blocking elements are arranged opposite each other, the directions of the openings of the two said flow cavities are opposed, the lateral walls of said connecting part and said water drainage grooves are fixedly connected, the internal walls of said main element and said water drainage grooves abut against each other.
[0009] Preferably, said flow guide structure comprises a blocking strip, the lateral walls of said blocking strip and said water drainage groove are fixedly connected, said blocking strip extends upwards to protrude from said water drainage groove, the lower part of said blocking strip is provided with an inclined strip fixedly connected to said water drainage groove.
[0010] Preferably, said external window and said internal window element are respectively located on the internal and external sides of a wall body.
[0011] Preferably, a gap is left between said flow guide part and said connecting part.
[0012] Preferably, said connecting part is provided with a through connecting hole.
[0013] Advantageous effects: the flow of water around the periphery of the window is guided by means of a simple water blocking element, reducing continuous contact between the window and the water, and achieving a water drainage effect; the flow guiding part of the water blocking element is in contact with the flowing water which, by moving over an inclined surface, flows outwards via the water drainage groove of the window, achieving the water drainage effect.
[0014] BRIEF DESCRIPTION OF THE DIFFERENT VIEWS OF THE DRAWINGS
[0015] [Fig.1] represents the complete structural diagram of the present invention;
[0016] [Fig.2] represents the structural diagram in lateral view of the present invention;
[0017] [Fig.3] represents the structural diagram of the installed window of the present invention;
[0018] [Fig.4] represents the structural diagram in lateral view of the wall body of the present invention;
[0019] [Fig.5] represents the structural diagram of an enlarged view of A of [Fig.4];
[0020] [Fig.6] represents the structural diagram of the window of the present invention;
[0021] [Fig.7] represents the structural flow diagram of another embodiment;
[0022] [Fig.8] represents the installation diagram of the water blocking element;
[0023] Symbols in the accompanying figures: 11, water blocking element; 12, element main; 13, flow guide part; 14, connecting part; 15, through hole; 16, gap slot; 21, window; 22, internal window element; 23, water drainage groove; 24, blocking strip, 25, inclined strip; 31, wall body; 32, aluminum recess. DETAILED DESCRIPTION OF THE INVENTION
[0024] In order to clarify the technical solution of the present invention, a more detailed description of the present invention combining accompanying figures and embodiments is given below.
[0025] Embodiment 1
[0026] As shown in Figures 1 to 6, a water blocking element 11, the water blocking element 11 is connected to the window, the window and the wall body 31 are connected.
[0027] In which the window comprises an external window 21 and an internal window element 22, the internal window element 22 is installed on the internal side of the wall body 31, the external window 21 and the internal window element 22 are connected, water drainage grooves 23 are arranged on the peripheral sides of the external window 21, the water blocking element 11 and the water drainage grooves 23 are connected. The external window 21 and the internal window element 22 are connected by hooking, or connected using connecting elements such as screws.
[0028] When in use, the window is installed on the wall body 31. The sheet metal wall body 31 is often provided at intervals with a plurality of aluminum recesses 32 having depressions in the wall body. The aluminum recesses 32 allow water to easily infiltrate. To ensure that water does not infiltrate the interior of the barracks through the windows, a flow guide structure is arranged on the upper side of the window. The flow guide structure is arranged on the inner side of the wall body, while at the lower end of the proximal flow guide structure of the internal window element 22, the water that infiltrates the inner side of the wall body comes into contact with the flow guide structure, then flows into the water drainage grooves 23 and is not likely to continue flowing to the inner side of the wall body. wall 31.
[0029] Optionally, as shown in [Fig. 5], the flow guide structure includes a blocking strip 24. One end of the blocking strip 24 is installed on the wall body. The blocking strip 24 is vertical or nearly vertical in the direction of the extension of the aluminum recess 32. The blocking strip is arranged on the upper side of the junction between the wall body and the window to collect the water flowing from the wall body to the upper side of the window. An inclined strip 25 is arranged below the blocking strip 24 in the direction of the extension of the water drainage groove. The inclined strip is oriented at an angle to the water drainage groove. The inclined strip 25 can fully guide the rainwater so that it enters the water drainage groove 23 and then flows into the water drainage grooves 23 on both sides, reducing the probability of rainwater infiltrating the walls. In another optional mode, as shown in [Fig.7], the drainage structure includes the blocking strip 24, the internal walls of the blocking strip and water drainage grooves 23 are fixedly connected, parallel the blocking strip 24 extends upwards to protrude from the water drainage groove 23, the blocking strip 24 and the wall body 31 come together, parallel, the blocking strip 24 partially covers the aluminum recess 32 of the wall body 31, the water flowing from the aluminum recess 32 is in contact with the blocking strip 24, in order to better mitigate any water infiltration, it is also possible to arrange a similar type of inclined strip.
[0030] As shown in Figures 1 and 2, the water blocking element 11 comprises a main element 12, in which a flow guide portion 13 is fixedly connected to the top of the main element 12, the flow guide portion 13 is arranged at an angle, when the water blocking element 11 and the water drainage grooves 23 are fixedly connected, the lower walls of the main element 12 and the water drainage grooves 23 come together, while an angle is arranged between the flow guide portion 13 and the water drainage grooves 23, the angle serving to guide the drainage of the water.
[0031] In which, on a water drainage groove 23 on one side, two water blocking elements 11 are arranged horizontally and symmetrically at the top and bottom. On the upper blocking element 11, as shown in [Fig. 8], the flow guide portion 13 is located above the blocking element 11. The flow guide portion 13 and the water drainage groove 23 form a concave groove. When rainwater flows downwards, it flows into the concave groove and is then drained by the top of the flow guide portion 13 (the inclined surface of the flow guide portion 13 faces the inner wall of the water drainage groove and forms a triangular internal groove). When rainwater is drained by the flow guide portion 13, it forms a curved line and is not in contact with the window, which facilitates drainage.
[0032] Whereas for the water drainage element 11 below, the flow guide part 13 is located below the main element 12, the flow guide part 13 also forms an inclined surface, guides the rainwater so that it is drained by forming a curved line.
[0033] Furthermore, the water drainage element 11 also includes a connecting part 14; the internal walls of the connecting part 14 and the main element 12 are fixedly connected; the connecting part 14 is provided with a connecting hole 15 for fixing; the water drainage element 11 is fixed onto the internal wall of the water drainage groove using a bolt passing through the connection hole 15, thus performing the work of fixing the water blocking element.
[0034] The connecting part 14 and the flow guide part 13 are not fixedly connected, a gap 16 is left between the connecting part 14 and the flow guide part 13, for the water drainage element 11 located above the water drainage groove 23, when the water has flowed for an hour, and accumulates in the concave groove located between the internal walls of the flow guide part 13 and the water drainage groove 23, the water drainage element 11 is easily corroded, the gap 16 between the connecting part 14 and the flow guide part 13 allows the accumulated water to drain, thus preventing damage to the water drainage element 11.
[0035] For the water drainage element 11 below the water drainage groove 23, the gap 16 allows for better drainage of rainwater, the water drainage element 11 therefore cannot be easily damaged.
[0036] The aforementioned embodiments express only a few ways in which the present invention can be described; while relatively concrete and precise, it cannot be considered exhaustive. It should be understood that, for a person skilled in the art, provided they do not deviate from the scope of the present invention, a multitude of modifications and improvements can be made, all of which remain within the scope of the present invention.
Claims
Demands
1. Water barrier window, characterized in that it comprises an external window (21) and an internal window element (22), water drainage grooves (23) are arranged between said external window (21) and said internal window element (22), water blocking elements (11) are fixedly installed inside said water drainage grooves (23) on both sides, a flow guide structure is connected to said water drainage grooves (23) on the upper side of said external window (21).
2. Water barrier window according to claim 1, characterized in that said water blocking elements (11) comprise a main element (12), a flow guide part (13) is connected to the upper side of said main element (12), said flow guide part (13) is arranged in an inclined manner, a side wall of said main element (12) is provided with a connecting part (14) for fixing, flow cavities (17) are formed between said connecting part (14), said flow guide part (13) and said main element (12).
3. Water barrier window according to claim 1, characterized in that the water blocking elements (11) are arranged respectively on the upper and lower sides of the water drainage grooves (23) on both sides, the water blocking elements (11) are arranged opposite each other, the directions of the openings of the two said flow cavities (17) are opposite, the side walls of said connecting part (14) and of said water drainage grooves (23) are fixedly connected, the internal walls of said main element (12) and of said water drainage grooves (23) come together.
4. Water barrier window according to claim 3, characterized in that said flow guide structure comprises a blocking strip (24), the side walls of said blocking strip (24) and of said water drainage groove (23) are fixedly connected, said blocking strip (24) extends upwards to protrude from said water drainage groove (23), the lower part of said blocking strip (24) is provided with an inclined strip (25) fixedly connected to said water drainage groove (23).
5.
6.
7. A water-resistant window according to claim 4, characterized in that said external window (21) and said internal window element (22) are respectively located on the internal and external sides of a wall body. A water-resistant window according to claim 2, characterized in that a gap is left between said flow guide portion (13) and said connecting portion (14). Water barrier window according to claim 2, characterized in that said connecting part (14) is provided with a through connecting hole (15).