CN220395488U - Inclined anti-seepage windowsill - Google Patents

Abstract

The utility model relates to the technical field of windowsill seepage prevention, in particular to an inclined seepage prevention windowsill. The inclined anti-seepage windowsill comprises an anti-seepage table, the anti-seepage table is built on a window, the tail end of the top of the anti-seepage table is set to be a horizontal table surface, the front end surface from the horizontal table surface to the anti-seepage table is smooth and excessive through a declining type inclined surface, a plurality of guide grooves which are distributed at equal intervals and are arranged along the inclined surface are formed in the declining type inclined surface, sound absorbing plates are fixedly embedded on the inner walls of the two sides of the guide grooves, and trapezoidal rubber strips which are distributed along the declining type inclined surface are fixedly embedded on the declining type inclined surface between the guide grooves. The diversion trench arranged on the inclined anti-seepage windowsill provided by the utility model is convenient for draining the dripped water liquid, and avoids the phenomenon that the water liquid remains on the anti-seepage windowsill to cause a water liquid permeation window.

Description

Inclined anti-seepage windowsill

Technical Field

The utility model relates to the technical field of windowsill seepage prevention, in particular to an inclined seepage prevention windowsill.

Background

The sill refers to a planar portion that supports the window frame. The windowsill design makes the windowsill more beautiful and beautiful. The windowsill has the function of removing rainwater left along the window surface, preventing the rainwater from penetrating into the wall body and penetrating into a room along the window gap, and simultaneously avoiding the rainwater from polluting the outer wall surface.

However, the conventional windowsill is not careful in rain-proof, and is generally only arranged at the bottom of a window, and most of windowsill is horizontal, so that the windowsill has weak flow conductivity, rainwater is easy to gather along the window edge and spread into the window, and a relatively large-volume click sound is easy to be generated after the rainwater is gathered.

Accordingly, there is a need to provide a new tilt-type impervious window sill that solves the above-mentioned problems.

Disclosure of Invention

In order to solve the technical problems, the utility model provides an inclined anti-seepage windowsill.

The inclined anti-seepage windowsill provided by the utility model comprises an anti-seepage table, wherein the anti-seepage table is built on a window, the tail end of the top of the anti-seepage table is provided with a horizontal table surface, and the front end surface from the horizontal table surface to the anti-seepage table is smoothly transited through a declined inclined surface;

the down-inclined plane is provided with a plurality of guide grooves which are distributed at equal intervals and are arranged along the inclined plane, the inner walls of the two sides of the guide grooves are fixedly embedded with sound absorbing boards, and the down-inclined plane between the two guide grooves is fixedly embedded with trapezoid rubber strips which are distributed along the down-inclined plane.

Preferably, both sides of the trapezoid rubber strip are provided with tangential planes which are obliquely arranged towards the diversion grooves at both sides, and a plurality of evenly distributed rubber bulges are fixedly embedded on the upper surface of the trapezoid rubber strip.

Preferably, the bottom furled groove body, the middle part of the guide groove are square side cavities, the top is a cohesive notch, and the sound absorbing plate is fixedly embedded in the two square side cavities at the middle part of the guide groove.

Preferably, a liquid draining sheet with a V-shaped structure is fixedly embedded on the seepage prevention table below the liquid outlet of each diversion trench.

Preferably, the front end surface of the seepage prevention table is fixedly embedded with a flow guide arc plate, the flow guide arc plate is positioned below the liquid discharge sheet, the middle of the flow guide arc plate is upwards convex, two sides of the flow guide arc plate are downwards inclined, and arc grooves B with the upper convex middle and the lower inclined sides are formed in the flow guide arc plate.

Preferably, an arc-shaped groove A is formed in the horizontal table surface, the arc-shaped groove A is horizontally arranged along the horizontal table surface, and two ends of the arc-shaped groove A incline downwards.

Preferably, the horizontal table tops at the front side and the rear side of the arc-shaped groove A are fixedly embedded with anti-overflow rubber columns.

Preferably, a circle of annularly distributed rubber ribs are fixedly embedded on the overflow-preventing rubber column.

Preferably, the horizontal table top of the seepage prevention table is built on the window, and the declining inclined surface of the seepage prevention table extends out of the window.

Compared with the related art, the inclined anti-seepage windowsill provided by the utility model has the following beneficial effects:

1. according to the utility model, the trapezoid rubber strip is embedded on the declining inclined plane to form an elastic structure, so that the 'click' volume generated by rainwater can be reduced after the rainwater drops on the trapezoid rubber strip, the rainwater falling on the trapezoid rubber strip is shunted to the adjacent diversion trench through the trapezoid rubber strip, and flows from the diversion trench to the front end surface of the seepage-proof platform, and the sound absorbing plate is arranged in the diversion trench, so that the volume of the rainwater of the windowsill is further reduced, and the noise pollution of a window is reduced;

2. according to the utility model, the rubber bulges arranged on the trapezoid rubber strips improve the friction force of the anti-seepage table on the window, so that the anti-seepage table is convenient for airing shoes, and the diversion grooves formed on the declined inclined planes are convenient for quickly discharging the dropped water liquid, so that the phenomenon that the water liquid is remained on the anti-seepage table to cause the water liquid to permeate the window is avoided;

3. the anti-overflow rubber column can be used for placing rainwater to overflow the declining inclined plane of the anti-seepage table, so that rainwater is effectively prevented from entering the window, and a circle of annularly distributed rubber ribs are fixedly embedded on the anti-overflow rubber column, so that the wear resistance of the anti-overflow rubber column is enhanced to a certain extent, wherein the arc-shaped groove A arranged on the horizontal table top can prevent the anti-overflow rubber column overflowing the front end surface of the horizontal table top from conducting flow guiding, and further protect the window from seepage.

Drawings

FIG. 1 is a schematic view of a preferred embodiment of an inclined impervious window sill according to the present utility model;

FIG. 2 is a schematic view of a portion of the back side of the impermeable station of FIG. 1 in cross-section;

FIG. 3 is a schematic view of the connection of the impermeable station of FIG. 1 to a window.

Reference numerals in the drawings: 1. an anti-seepage table; 11. a horizontal mesa; 11a, an arc-shaped groove A; 12. a declining inclined plane; 12a, diversion trenches; 2. a trapezoidal rubber strip; 3. a rubber protrusion; 4. a sound absorbing panel; 5. a liquid discharge sheet; 6. a deflector arcuate plate; 6a, an arc-shaped groove B; 7. an anti-overflow rubber column; 71. rubber ridges; 8. a window.

Description of the embodiments

The present utility model will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present utility model more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

Specific implementations of the utility model are described in detail below in connection with specific embodiments.

Referring to fig. 1 to 3, an inclined type anti-seepage window sill provided in an embodiment of the present utility model includes: the anti-seepage table 1, a horizontal table top 11, a declining inclined surface 12, a trapezoid rubber strip 2 and an acoustic panel 4.

In the embodiment of the present utility model, referring to fig. 1 and 3, the anti-seepage table 1 is built on the window 8, the top end of the anti-seepage table 1 is set to be a horizontal table top 11, the front end surface from the horizontal table top 11 to the anti-seepage table 1 is smoothly transited through a declining inclined plane 12, a plurality of guide grooves 12a which are equidistantly distributed and are arranged along the inclined plane are formed on the declining inclined plane 12, the bottom of the guide grooves 12a is a closed groove body, the middle is a square side cavity, the top is a cohesive notch, the inner walls of the two sides of the guide grooves 12a are fixedly embedded with sound absorbing plates 4, in particular, the sound absorbing plates 4 are fixedly embedded in the two square side cavities in the middle of the guide grooves 12a, the declining inclined plane 12 between the two guide grooves 12a is fixedly embedded with a trapezoid rubber strip 2 which is distributed along the declining inclined plane, in particular, two sides of the trapezoid rubber strip 2 are provided with a plurality of evenly distributed rubber bumps 3.

It should be noted that: the horizontal table top 11 of the seepage prevention table 1 is built on the window 8, the declining inclined surface 12 of the seepage prevention table 1 extends out of the window 8, so that flowing water on a wall flows out along the declining inclined surface 12 and cannot permeate into the window 8, and the declining inclined surface 12 is embedded with the trapezoid rubber strip 2 to form an elastic structure, so that the 'click' volume generated by the rainwater can be reduced after the rainwater drops onto the trapezoid rubber strip 2, and the rainwater falling onto the trapezoid rubber strip 2 is shunted onto the adjacent diversion trench 12a through the trapezoid rubber strip 2 and flows from the diversion trench 12a to the front end surface of the seepage prevention table 1, and the sound absorbing plate 4 is arranged in the diversion trench 12a, so that the volume of the rainwater of the window is further reduced, and the noise pollution of the window is reduced;

also to be described is: the rubber bulge 3 arranged on the trapezoid rubber strip 2 improves the friction force of the anti-seepage table 1 on the window 8, so that the anti-seepage table 1 is convenient for airing shoes, the diversion trench 12a formed by the declining inclined surface 12 is convenient for quickly discharging the dripped water, and the phenomenon that the water is remained on the anti-seepage table 1 to cause the water to permeate the window 8 is avoided.

In the embodiment of the present utility model, referring to fig. 1, a liquid discharge sheet 5 with a V-shaped structure is fixedly embedded on the anti-seepage table 1 below the liquid outlet of each diversion trench 12a, a diversion arc plate 6 is fixedly embedded on the front end surface of the anti-seepage table 1, the diversion arc plate 6 is located below the liquid discharge sheet 5, the middle of the diversion arc plate 6 is convex upward, two sides of the diversion arc plate 6 are declined, and an arc groove B6a with the convex middle and the declined sides is formed on the diversion arc plate 6.

It should be noted that: the arranged liquid discharge sheet 5 can discharge the water quantity discharged from the declining inclined surface 12 into the diversion arc plate 6, and the liquid discharge sheet 5 improves the contact between the discharged water and the wall of the window 8, thereby further reducing the phenomenon that the water permeates the wall.

In the embodiment of the present utility model, referring to fig. 1 and 2, an arc groove a11a is formed on the horizontal table top 11, the arc groove a11a is horizontally disposed along the horizontal table top 11, two ends of the arc groove a11a incline downward, the overflow-preventing rubber columns 7 are fixedly embedded on the horizontal table top 11 on the front side and the rear side of the arc groove a11a, and a circle of annular distributed rubber ribs 71 are fixedly embedded on the overflow-preventing rubber columns 7.

It should be noted that: the anti-overflow rubber column 7 that sets up can place the downdip inclined plane 12 that the rainwater overflows prevention of seepage platform 1, effectively prevents rainwater invasion window 8, and the fixed gomphosis has the annular rubber ridge 71 of distribution of round on the anti-overflow rubber column 7 to the wearability of anti-overflow rubber column 7 has been strengthened to a certain extent, wherein, arc groove A11a that sets up on the horizontal mesa 11 can prevent to overflow the anti-overflow rubber column 7 of horizontal mesa 11 preceding terminal surface and carry out the water conservancy diversion, prevents for window 8 prevention of seepage and further protects.

The working principle of the inclined anti-seepage windowsill provided by the utility model is as follows:

the horizontal table top 11 of the seepage prevention table 1 is built on the window 8, the declining inclined surface 12 of the seepage prevention table 1 extends out of the window 8, so that flowing water on a wall flows out along the declining inclined surface 12 and cannot permeate into the window 8, and the declining inclined surface 12 is embedded with the trapezoid rubber strip 2 to form an elastic structure, so that the 'click' volume generated by the rainwater can be reduced after the rainwater drops onto the trapezoid rubber strip 2, and the rainwater falling onto the trapezoid rubber strip 2 is shunted onto the adjacent diversion trench 12a through the trapezoid rubber strip 2 and flows from the diversion trench 12a to the front end surface of the seepage prevention table 1, and the sound absorbing plate 4 is arranged in the diversion trench 12a, so that the volume of the rainwater of the window is further reduced, and the noise pollution of the window is reduced; the rubber bulges 3 arranged on the trapezoid rubber strips 2 improve the friction force of the anti-seepage table 1 on the window 8, so that the anti-seepage table 1 is convenient for airing shoes, and the diversion trenches 12a formed on the declined inclined planes 12 are convenient for quickly discharging the dropped water, so that the phenomenon that the water is remained on the anti-seepage table 1 to permeate the window 8 is avoided;

the drainage sheet 5 that sets up can be with the water yield of downdip inclined plane 12 outer row to the water conservancy diversion arc 6 in to the drainage sheet 5 has improved the contact on outer drainage liquid and the window 8 wall, has further reduced the phenomenon that the water liquid permeated the wall body, and the downdip inclined plane 12 of prevention of seepage platform 1 can be placed to the anti-overflow rubber post 7 that sets up, effectively prevents rainwater invasion window 8, and fixed gomphosis has the annular distributed rubber rib 71 of round on the anti-overflow rubber post 7 to strengthen the wearability of anti-overflow rubber post 7 to a certain extent, wherein, arc groove A11a that sets up on the horizontal mesa 11 can prevent to overflow the anti-overflow rubber post 7 of horizontal mesa 11 front end face and carry out the water conservancy diversion, for the prevention of seepage of window 8 makes further protection.

The foregoing description is only illustrative of the present utility model and is not intended to limit the scope of the utility model, and all equivalent structures or equivalent processes or direct or indirect application in other related technical fields are included in the scope of the present utility model.

Claims (9)

1. The inclined anti-seepage windowsill is characterized by comprising an anti-seepage table (1), wherein the anti-seepage table (1) is built on a window (8), the tail end of the top of the anti-seepage table (1) is provided with a horizontal table top (11), and the front end surface from the horizontal table top (11) to the anti-seepage table (1) is smoothly and excessively transited through a declined inclined surface (12);

the down-inclined surface (12) is provided with a plurality of guide grooves (12 a) which are distributed at equal intervals and are arranged along the inclined surface, the inner walls of the two sides of the guide grooves (12 a) are fixedly embedded with sound absorbing plates (4), and the down-inclined surface (12) between the two guide grooves (12 a) is fixedly embedded with trapezoid rubber strips (2) which are distributed along the inclined surface in a down-inclined mode.

2. The inclined seepage-proofing windowsill according to claim 1, wherein both sides of the trapezoid rubber strip (2) are provided with tangential planes which are inclined towards the diversion grooves (12 a) at both sides, and a plurality of evenly distributed rubber bulges (3) are fixedly embedded on the upper surface of the trapezoid rubber strip (2).

3. The inclined seepage-proofing windowsill according to claim 1, wherein the bottom furled groove body, the middle part of the diversion groove (12 a) is a square side cavity, the top is a cohesive notch, and the sound absorbing plate (4) is fixedly embedded in the two square side cavities at the middle part of the diversion groove (12 a).

4. The inclined seepage-proofing windowsill according to claim 1, wherein a liquid discharge sheet (5) with a V-shaped structure is fixedly embedded on the seepage-proofing windowsill (1) below the liquid outlet of each diversion trench (12 a).

5. The inclined seepage-proofing windowsill according to claim 4, wherein the front end surface of the seepage-proofing windowsill (1) is fixedly embedded with a diversion arc plate (6), the diversion arc plate (6) is located below the liquid discharge sheet (5), the middle of the diversion arc plate (6) is convex upward, two sides of the diversion arc plate (6) incline downward, and an arc groove B (6 a) with the convex middle and the two sides declining downward is formed in the diversion arc plate (6).

6. The inclined seepage-proofing windowsill according to claim 1, wherein the horizontal table top (11) is provided with an arc-shaped groove A (11 a), the arc-shaped groove A (11 a) is horizontally arranged along the horizontal table top (11), and two ends of the arc-shaped groove A (11 a) incline downwards.

7. The inclined seepage-proofing windowsill according to claim 6, wherein the horizontal table tops (11) on the front side and the rear side of the arc-shaped groove A (11 a) are fixedly embedded with the seepage-proofing rubber columns (7).

8. The inclined seepage-proofing window sill according to claim 7, wherein a circle of annularly distributed rubber ribs (71) are fixedly embedded on the seepage-proofing rubber column (7).

9. The inclined impervious sill according to claim 7, characterized in that the horizontal mesa (11) of the impervious sill (1) is built on the window (8) and the declining slope (12) of the impervious sill (1) extends out of the window (8).