CN211081620U - Hide integrative window of drainage formula window screening - Google Patents

Abstract

The utility model discloses a hide integrative window of drainage formula window screening relates to door and window drainage technical field, including window frame, casement and screen window, the window frame includes inside casing and frame through bridge cut-off structural connection, and the casement includes interior window and outer window through bridge cut-off structural connection, installs the window glass between interior window and the outer window, and the inboard of screen window is through pressing gauze pressure equipment gauze, is equipped with the water catch bowl on the frame, and the top of water catch bowl is equipped with the first water hole in clearance between intercommunication screen window and the outer window, the second water hole in intercommunication isobaric chamber, and the outside portion of water catch bowl is equipped with the outdoor third water hole of intercommunication. The utility model provides an integrative window of window screening is difficult to the technical problem of high-efficient drainage among the prior art, the utility model discloses can dredge fast to outdoor, the drainage is high-efficient and thorough to the intaking in the constant pressure chamber between screen window and the casement, simultaneously the utility model discloses can also carry out effectual dredging to intaking of window glass mounting groove.

Description

Hide integrative window of drainage formula window screening

Technical Field

The utility model relates to a door and window drainage technology field, in particular to hide integrative window of drainage formula window screening.

Background

In the existing window screen integrated window, in rainy days, rainwater can enter a gap between a screen sash frame and a glass sash frame through a screen mesh and then is stocked on a window bottom frame; moreover, when the window is not closed in time in rainy days, part of rainwater can enter the constant pressure cavity. Because the window bottom frame does not have reasonable effectual drainage structures for thereby the rainwater can't effectively in time discharge influences indoor environment.

SUMMERY OF THE UTILITY MODEL

To above defect, the utility model aims at providing a hide integrative window of drainage formula window screening aims at solving among the prior art technical problem that the integrative window of window screening is difficult to high-efficient drainage.

In order to solve the technical problem, the technical scheme of the utility model is that:

the utility model provides a hide integrative window of drainage formula window screening, including the window frame, casement and screen window, the window frame includes inside casing and frame through bridge cut-off structural connection, the casement includes interior window and outer window through bridge cut-off structural connection, install window glass between interior window and the outer window, the inboard of screen window is through pressing gauze pressure equipment gauze, be equipped with the water catch bowl on the frame, the top of water catch bowl is equipped with the first water hole in clearance between intercommunication screen window and the outer window, the second water hole in intercommunication isobaric chamber, the outside portion of water catch bowl is equipped with the outdoor third water hole of intercommunication.

Wherein, the bottom surface of the water collecting tank is arranged obliquely towards the outdoor direction.

Wherein, first water hole, second water hole and third water hole all are equipped with a plurality of along the length direction interval of window frame.

Wherein, the first water hole and the third water hole are positioned in the same cross section of the window frame.

Wherein, first water hole and second water hole along the length direction dislocation set of window frame.

Wherein, the third water hole is arranged at the bottom outside the water collecting tank.

Wherein, a gauze is arranged on the third water hole.

Wherein, the top surface of the external window is arranged obliquely towards the outdoor direction.

The outer window comprises a section bar frame, the top of the section bar frame is provided with a blocking and leaning part, the top of the section bar frame is provided with a fourth water hole, and the bottom of the section bar frame is provided with a fifth water hole.

After the technical scheme is adopted, the beneficial effects of the utility model are that:

because the utility model relates to a hide integrative window of drainage formula window screening, including the window frame, casement and screen window, the window frame includes through inside casing and frame, the casement includes interior window and exterior window, be equipped with the water catch bowl on the frame, the top of water catch bowl is equipped with the first water hole in clearance between intercommunication screen window and the exterior window, the second water hole in intercommunication isobaric chamber, the outside portion of water catch bowl is equipped with the outdoor third water hole of intercommunication, through the screen window entering rainwater on the casement mostly collect the clearance between screen window and the casement in, enter into the water catch bowl via first water hole again, discharge to outdoor via the third water hole at last, thereby realize clearance ponding and isobaric intracavity ponding between screen window and the casement and dredge fast.

The bottom surface of the water collecting tank is inclined towards the outdoor direction. So that the water entering the water collecting tank can be rapidly discharged, and the drainable speed is further improved.

Because the first water hole and the third water hole are positioned in the same cross section of the window frame, the window sash is closed, and the first water hole with larger water displacement can be quickly discharged through the third water discharging hole after water enters.

Because first water hole and second water hole along the length direction dislocation set of window frame to get up the space make full use of water catch bowl, avoid the intaking in first water hole and second water hole to gush into same region simultaneously and reduce the drainage rate in first water hole or second water hole.

The third water hole is formed in the bottom of the outer side of the water collecting tank.

Because install the gauze on the third water hole for the gauze covers the third water hole, avoids outdoor mosquito to enter into indoorly through the third water hole.

To sum up, the utility model provides an integrative window of window screening is difficult to the technical problem of high-efficient drainage among the prior art, the utility model discloses can dredge fast to outdoor, the drainage is high-efficient and thorough to the intaking of intaking between screen window and the casement and isobaric chamber, simultaneously the utility model discloses can also carry out effectual the dredging to the intaking of window glass mounted position.

Drawings

Fig. 1 is a schematic structural view of the utility model relates to a hide integrative window of drainage type window screening.

In the figure, 1-window frame, 10-inner frame, 100-water collecting tank, 101-first water hole, 102-second water hole, 103-third water hole, 11-outer frame, 12-window glass, 13-isobaric rubber strip, 2-window sash, 20-inner window, 21-outer window, 210-section frame, 211-leaning part, 212-fourth water hole, 213-fifth water hole, 22-isobaric cavity, 3-screen window and 30-pressing sliver.

Detailed Description

The present invention will be further explained with reference to the accompanying drawings.

The position that involves in this specification all uses the utility model relates to a hide integrative window of drainage formula window screening the position of during normal work as the standard, does not restrict its storage and the position when transporting, only represents relative position relation, does not represent absolute position relation.

As shown in fig. 1, a hide integrative window of drainage formula window screening, including window frame 1, casement 2 and screen window 3, window frame 1 is two bridge cut-off aluminium alloy structure with casement 2, and window frame 1 includes inside casing 10 and frame 11 through bridge cut-off structural connection, and casement 2 includes interior window 20 and exterior window 21 through bridge cut-off structural connection, and above-mentioned bridge cut-off structure is the heat insulating strip. Install window glass 12 between interior window 20 and the exterior window 21, the inboard pressure equipment screen of screen window 3 is through pressing gauze 30, screen window 3 passes through joint strip sealing connection on frame 11, casement 2 rotates through the hinge and installs on window frame 1, when casement 2 is closed, interior window 20 seals through joint strip and presses on inside casing 10, exterior window 21 seals through joint strip and presses on frame 11, vacuole formation between window frame 1 and the casement 2, install the heat insulating strip on casement 2 and install the isobaric adhesive tape 13 overlap joint on window frame 1, and cut off this cavity into two isobaric cavities 22. A gap of 0.5 cm-2.5 cm is arranged between the window sash 2 and the screen window 3.

As shown in fig. 1, a water collecting tank 100 is disposed on the inner frame 10, the water collecting tank 100 is a section cavity located at a top position on the inner frame 10, a first water hole 101 and a second water hole 102 are formed at a top of the water collecting tank 100, a third water hole 103 is formed at an outer side portion of the water collecting tank 100, and the third water hole 103 is located at a bottom position of an outer side wall of the water collecting tank 100. Most of rainwater entering the window sash 2 through the screen is collected into a gap between the window screen 3 and the window sash 2, enters the water collecting tank 100 through the first water hole 101, and is finally discharged to the outside through the third water hole 103; the exterior window 21 comprises a section frame 210, a blocking portion 211 is arranged at the top of the section frame 210, the window glass 12 is fixed at the blocking portion 211 in a sealing mode through a sealing rubber strip, a fourth water hole 212 is arranged at the top of the section frame 210, a fifth water hole 213 is arranged at the bottom of the section frame 210, the fourth water hole 212 and the fifth water hole 213 are arranged in an up-and-down opposite mode, the rest part of rainwater penetrates into a mounting groove, used for mounting the window glass 12, in the top of the window sash through the sealing rubber strip at the blocking portion 211, then sequentially enters the equal-pressure cavity 22 through the fourth water hole 212 and the fifth water hole 213, then enters the water collecting tank 100 through the second water hole 102, and finally is discharged to the outside through the third water hole 103, when the window sash 2 is opened, the rainwater can directly enter the equal-pressure cavity 22, then enters the water collecting tank 100 through the second water hole 102, and finally is discharged to the outside.

As shown in fig. 1, a plurality of first water holes 101, a plurality of second water holes 102 and a plurality of third water holes 103 are processed on the window frame 1 for improving the drainage capacity, the plurality of first water holes 101, the plurality of second water holes 102 and the plurality of third water holes 103 are arranged at intervals, wherein the first water holes 101 and the third water holes 103 are opposite to each other in the cross section of the window frame 1, so that the window sash 2 is closed, the first water holes 101 with a large drainage capacity can be quickly drained through the third drainage holes after water enters, the first water holes 101 and the second water holes 102 are not located in the same cross section of the window frame 1, and the first water holes 101 and the second water holes 102 are arranged along the length direction of the window frame 1 in a staggered manner, so that the space of the water collecting tank 100 is fully utilized, and the water entering of the first water holes 101 and the second water holes 102 is prevented from simultaneously flowing into the same.

As shown in fig. 1, the bottom surface of the water collecting tank 100 is inclined toward the outside, i.e., the third water hole 103 is located at the lowest point of the water collecting tank 100, so that the water entering the water collecting tank 100 can be rapidly discharged, further increasing the drainable rate.

As shown in fig. 1, a gauze is installed on the third water hole 103, and the gauze covers the third water hole 103 to prevent outdoor mosquitoes from entering the room through the third water hole 103.

As shown in fig. 1, the top surface of the outer window 21 is inclined toward the outside so that rainwater collected on the window glass 12 can smoothly enter the gap between the window sash 2 and the screen 3.

The present invention is not limited to the above specific embodiments, and those skilled in the art can make various changes without creative labor from the above conception, and all the changes fall within the protection scope of the present invention.

Claims (9)

1. The utility model provides a hide integrative window of drainage formula window screening, includes window frame, casement and screen window, the window frame includes inside casing and the frame through bridge cut-off structural connection, the casement includes interior window and outer window through bridge cut-off structural connection, interior window with install window glass between the outer window, the inboard of screen window is through pressing the screen sliver pressure equipment gauze, a serial communication port, be equipped with the water catch bowl on the frame, the top of water catch bowl is equipped with the intercommunication the screen window with the first water hole in clearance between the outer window, the second water hole in intercommunication isobaric chamber, the outside portion of water catch bowl is equipped with the outdoor third water hole of intercommunication.

2. The window of claim 1, wherein the bottom surface of the water collecting groove is inclined toward the outdoor direction.

3. The window of claim 1, wherein the first, second and third water holes are spaced apart along the length of the window frame.

4. The window of claim 3, wherein the first water hole and the third water hole are located in the same cross-section of the window frame.

5. The window of claim 4, wherein the first water hole and the second water hole are disposed in a staggered manner along a length direction of the window frame.

6. The window of claim 1, wherein the third water hole is formed in a bottom portion of the outside of the water collection groove.

7. The window of claim 6, wherein the third water hole is provided with a screen.

8. The window of claim 1, wherein the top surface of the outer window is inclined toward the outdoor direction.

9. The window of any one of claims 1 to 8, wherein the outer window comprises a profile frame, the top of the profile frame is provided with a stop portion, the top of the profile frame is provided with a fourth water hole, and the bottom of the profile frame is provided with a fifth water hole.

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