CN214463512U - Waterproof slope board for windowsill - Google Patents

Abstract

The utility model relates to a building windowsill waterproof device, in particular to a windowsill waterproof slope board; the utility model comprises a flying eave (2-1), a drainage slope (2-2), a water retaining wall (2-3) and an upper convex buckle (2-4); the method is characterized in that: the inner angle of the intersection of the cornice (2-1) and the drainage slope (2-2) is 134-151 degrees; the inner angle of the intersection of the drainage slope (2-2) and the water retaining wall (2-3) of the utility model is 90-108 degrees; the upper convex button (2-4) of the utility model is a 75-108 degree equilateral closed angle; the problem of impact and accumulation of a large amount of rainwater can be solved; the window water seepage problem is avoided, the good news is brought to families and house residents of units, unnecessary loss is reduced, maintenance cost is saved, energy is saved, the environment is protected, and immeasurable beneficial effects are brought to families, society and countries.

Description

Waterproof slope board for windowsill

Technical Field

The utility model relates to a building windowsill watertight fittings, especially a waterproof ramp of windowsill.

Background

The window is not opened in a building house, the windows commonly used by people at present comprise wood windows, plastic windows, aluminum alloy windows and other windows, and the windowsill is easy to seep water due to rainwater, and particularly the water seepage phenomenon of the windows in temperate regions and tropical regions is very serious; most of the water leakage of the window permeates into the wall through the windowsill and then gradually permeates into the room; in part, the leakage of water is caused by the fact that the wall under the windowsill is soaked by a large amount of rainwater for a long time.

The manufacturing process of the window is firstly supposed to be perfect in sealing, such as hollow glass sealing, window frame corner combining part sealing, corner combining fracture part sealing, middle support part sealing, sealing between glass and a window frame and other detailed sealing parts of the window are all intact, but even if the window with excellent protection is installed on a wall body, the water leakage phenomenon can occur at positions such as a windowsill and the like.

For window installation companies, rough or defective installations do result in water leaks. However, even if the installation is re-standardized, the water leakage still occurs when the installation is not strict.

People mistakenly think that the water on the window table surface is drained to the outer wall, and the water cannot leak; in fact, most of the rain does drain from the sill, but a small proportion of the water still seeps into the wall below the sill.

Some people think that the outdoor window of the window is high, the indoor window is low, so the water flows into the indoor table from high to low. Therefore, the indoor window table is lifted, and the result is infiltrated as is, but the water is infiltrated to the lower part of the indoor window table.

Exactly what is the reason why is the windowsill leaking water? The practical situation is that ceramic tiles or ceramic bricks on the windowsill, pointing putty or exterior wall paint on the windowsill cannot completely resist water penetration for a long time; water permeates into the concrete which is batched when the concrete is filled from capillary holes or fine cracks of the surface materials of the window table and the side surfaces of the window; one path of rainwater permeating into the facing material permeates into a room through the window opening, and the other path of rainwater permeates into a wall body below the table top.

Even if the facing material is made to be good and dense, the facing material is beautiful and flawless, but the facing material and the concrete inevitably crack in micro areas under the action of climate temperature difference, aging of building materials, water absorption and water loss of the concrete and the like; because of different expansion coefficients of various materials, cracks are inevitably generated under the action of temperature difference in day and night or between summer and winter, and in addition, the invasion of moisture and surface drying are carried out, and in the circulating process, the cracks are further expanded; the outer counter surface material of the window is thus impervious to the ingress of water. In conclusion, the research on solving the problem of water seepage of the window is a significant work.

SUMMERY OF THE UTILITY MODEL

The utility model provides a waterproof ramp of windowsill can effectively solve the problem of windowsill infiltration.

The technical proposal of the utility model for solving the technical problem is that: to the problem of a large amount of rainwater impact and gathering windowsill for a long time, special design the utility model discloses the waterproof ramp of windowsill is used for installing on the windowsill.

The utility model comprises a flying eave, a drainage slope, a water retaining wall and an upper convex buckle; the method is characterized in that: the intersection inner angle of the cornice and the drainage slope of the utility model is 134-151 degrees; the inner angle of the intersection of the drainage slope and the water retaining wall of the utility model is 90-108 degrees; the upper convex button of the utility model is an equilateral closed angle of 75-105 degrees.

In fig. 3, the building windowsill comprises weather-resistant glue, parting strips, an aluminum alloy inner frame, auxiliary frame movable clamping pieces, a filling foaming agent, a standardized auxiliary frame, an auxiliary frame mounting fixing piece, shooting nails, a concrete wall body, an inner wall, an outer wall and an aluminum alloy outer frame; the utility model also comprises a waterproof strip of the windowsill, the heat-insulating plate; the method is characterized in that: the inner angle between the upper slope surface and the left side surface of the outer whitewashing wall is set to be 90-108 degrees, heat preservation plates are arranged on the upper surface and the left side surface of the outer whitewashing wall, and the utility model is arranged on the heat preservation plates; the right end of the windowsill waterproof strip is arranged on the right end of the utility model, the right end of the windowsill waterproof strip is connected with the standardized auxiliary frame, the auxiliary frame movable clamping piece is arranged on the standardized auxiliary frame and is connected with the aluminum alloy inner frame and the aluminum alloy outer frame, and the aluminum alloy inner frame is connected with the aluminum alloy outer frame by the parting bead; filling foaming agents among the standardized auxiliary frame, the aluminum alloy inner frame and the aluminum alloy outer frame; weather-resistant glue is arranged between the aluminum alloy outer frame and the windowsill waterproof strip; set up resistant time glue between the waterproof strip of windowsill and the utility model discloses.

The heat-insulation plate comprises a heat-insulation vertical plate and a heat-insulation slope plate; the heat-insulating vertical plate consists of a vertical aluminum alloy plate and vertical filling foam; the heat insulation vertical plate of the heat insulation plate consists of a vertical aluminum alloy plate and vertical filling foam; the heat insulation slope plate of the heat insulation plate is composed of a slope aluminum alloy plate and slope vertical filling foam; the internal angle of the intersection of the heat-insulating vertical plate and the heat-insulating slope plate of the heat-insulating plate is 90-108 degrees; the vertical filling foam and the slope vertical filling foam are polyurethane foam adhesives.

The utility model has the advantages that: the problem of impact and accumulation of a large amount of rainwater can be solved; the problem of connection leakage between the waterproof slope plate of the windowsill and the window frame can be solved; the window water seepage problem is avoided, the good news is brought to families and house residents of units, unnecessary loss is reduced, maintenance cost is saved, energy is saved, the environment is protected, and immeasurable beneficial effects are brought to families, society and countries.

Drawings

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

Fig. 2 is a structural sectional view of the present invention.

Fig. 3 is a schematic view of the present invention used on a building sill.

Fig. 4 is a structural view of the insulation board used together with the present invention on the building sill.

Figure 5 is a structural cross-sectional view of the insulation board used with the present invention on a building sill.

In the drawings, 1. a windowsill waterproof strip; 2. the utility model discloses; 3. a thermal insulation board; 4. weather-resistant glue; 5. a parting strip; 6, an aluminum alloy inner frame; 7. the auxiliary frame movable clamping piece; 8. filling a foaming agent; 9. standardizing an auxiliary frame; 10. the auxiliary frame is provided with a fixing piece; 11. shooting a nail; 12. a concrete wall; 13. wall plastering is carried out inside; 14. wall plastering is carried out; 15. an aluminum alloy outer frame; 2-1. cornice; 2-2, draining a slope; 2-3, water retaining wall; 2-4, arranging a convex buckle; 3-1, heat preservation vertical plates; 3-2, a heat preservation slope plate; 3-11 vertical aluminum alloy plate; 3-12, vertically filling foam; 3-21, slope aluminum alloy plate; 3-22. the slope is vertically filled with foam.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings.

In the figures 1 and 2, the utility model comprises an eave (2-1), a drainage slope (2-2), a water retaining wall (2-3) and an upper convex buckle (2-4); the method is characterized in that: the inner angle of the intersection of the cornice (2-1) and the drainage slope (2-2) is 134-151 degrees; the inner angle of the intersection of the drainage slope (2-2) and the water retaining wall (2-3) of the utility model is 90-108 degrees; the upper convex button (2-4) of the utility model is an equilateral closed angle of 75-108 degrees.

In fig. 3, the building windowsill comprises weather-resistant glue (4), parting strips (5), an aluminum alloy inner frame (6), an auxiliary frame movable clamping piece (7), a filling foaming agent (8), a standardized auxiliary frame (9), an auxiliary frame mounting fixing piece (10), shooting nails (11), a concrete wall body (12), an inner powder wall (13), an outer powder wall (14) and an aluminum alloy outer frame (15); also comprises a windowsill waterproof strip (1), the utility model (2) and a heat-insulating plate (3); the method is characterized in that: the inner angle between the upper slope surface and the left side surface of the outer whitewashed wall (14) is set to be 90-108 degrees, the heat preservation plate (3) is arranged on the upper surface and the left side surface of the outer whitewashed wall (14), and the utility model (2) is arranged on the heat preservation plate (3); the right end of the utility model (2) is provided with a windowsill waterproof strip (1), the right end of the windowsill waterproof strip (1) is connected with a standardized auxiliary frame (9), an auxiliary frame movable clamping piece (7) is arranged on the upper surface of the standardized auxiliary frame (9) and is connected with an aluminum alloy inner frame (6) and an aluminum alloy outer frame (15), and the aluminum alloy inner frame (6) is connected with the aluminum alloy outer frame (15) by a spacing strip (5); filling a filling foaming agent (8) between the standardized auxiliary frame (9) and the aluminum alloy inner frame (6) and the aluminum alloy outer frame (15); a weather-resistant adhesive (4) is arranged between the aluminum alloy outer frame (15) and the windowsill waterproof strip (1); the weather-proof glue is arranged between the windowsill waterproof strip (1) and the utility model (2).

In fig. 4 and 5, the heat-insulating plate (3) comprises a heat-insulating vertical plate (3-1) and a heat-insulating slope plate (3-2); the heat-insulating vertical plate (3-1) consists of a vertical aluminum alloy plate (3-11) and vertical filling foam (3-12); the heat insulation vertical plate (3-1) of the heat insulation plate (3) consists of a vertical aluminum alloy plate (3-11) and vertical filling foam (3-12); the heat insulation slope plate (3-2) of the heat insulation plate (3) is composed of a slope aluminum alloy plate (3-21) and slope vertical filling foam (3-22); the internal angle of the intersection of the heat-insulating vertical plate (3-1) of the heat-insulating plate (3) and the heat-insulating slope plate (3-2) is 90-108 degrees; the vertical filling foam (3-12) and the slope vertical filling foam (3-22) are polyurethane foam adhesives.

Claims (1)

1. The waterproof sloping plate for the windowsill comprises an eave (2-1), a drainage slope (2-2), a water retaining wall (2-3) and an upper convex buckle (2-4); the method is characterized in that: the interior angle of the intersection of the cornice (2-1) of the windowsill waterproof slope plate and the drainage slope (2-2) is 134-151 degrees; the interior angle of the intersection of the drainage slope (2-2) and the water retaining wall (2-3) of the windowsill waterproof slope board is 90-108 degrees; the upper convex buckles (2-4) of the waterproof sloping plate of the windowsill are equilateral sharp angles of 75-108 degrees.

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