CN218542079U - Prevent ponding one-way internal flush and open window - Google Patents

Abstract

The utility model discloses a prevent ponding one-way internal flush window, including perpendicular fixed connection's last window frame in proper order, left side window frame, lower window frame and right window frame, the fixed horizontal munnion that sets up between left side window frame and the right window frame of level, be provided with perpendicular munnion between horizontal munnion and the lower window frame, go up window frame and left window frame, right window frame, be provided with first insulator in the rectangle region that horizontal munnion constitutes, horizontal munnion and left window frame, lower window frame, be provided with movable casement in the rectangle region that perpendicular munnion constitutes, movable casement passes through the loose-leaf rotation with lower window frame and is connected, movable casement comprises four perpendicular fixed connection's interior window frame in proper order, be provided with the second insulator in the movable casement, erect munnion and horizontal munnion, lower window frame, be provided with the third insulator in the rectangle region that right side window frame constitutes. The utility model adopts the above structure prevent that ponding one-way internal flush is windowed, the rainwater that accumulates in the window frame can discharge, avoids wind to blow out the time production abnormal sound, and closes through opening in one-way and realize ventilating.

Description

Prevent ponding one-way internal flush and open window

Technical Field

The utility model belongs to the technical field of the window technique and specifically relates to a prevent ponding one-way internal flush and window.

Background

The window is used as an essential part in a building and has the functions of light transmission, ventilation and heat insulation. A casement window is a type of window, and a sash moves in a horizontal direction, so the casement window is called as a casement window. The problem of bottom window frame ponding exists in the use of present window raining or meet water back, and even spread to the indoor when serious. And because the structure of the window can not achieve complete sealing, when strong wind with high flow velocity passes through the window, the air pressure inside and outside the window changes, and the indoor air and the outdoor air flow through the gap in the window body, so that sharp abnormal sound can be caused.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a prevent ponding one-way internal flush and open window can discharge the interior rainwater that accumulates of window frame, produces the abnormal sound when avoiding wind to blow, and opens and shuts the realization through one-way interior and ventilate.

In order to achieve the purpose, the utility model provides a one-way internal casement window capable of preventing ponding, which comprises an upper window frame, a left window frame, a lower window frame and a right window frame which are sequentially and vertically and fixedly connected, wherein a transverse middle support is horizontally and fixedly arranged between the left window frame and the right window frame, a vertical middle support is arranged between the transverse middle support and the lower window frame, a first heat insulator is arranged in a rectangular region formed by the upper window frame, the left window frame, the right window frame and the transverse middle support, a movable window sash is arranged in a rectangular region formed by the transverse middle support, the left window frame, the lower window frame and the vertical middle support, the movable window sash is rotationally connected with the lower window frame through hinges, the movable window sash is formed by four internal window frames which are sequentially and vertically and fixedly connected, a second heat insulator is arranged in the movable window sash, and a third heat insulator is arranged in a rectangular region formed by the vertical middle support, the lower window frame and the right window frame;

the upper window frame, the left window frame, the lower window frame and the right window frame respectively comprise a first outer fixing piece and a first inner fixing piece, the transverse middle support and the vertical middle support respectively comprise a second outer fixing piece and a second inner fixing piece, the inner window frame comprises a third inner fixing piece and a third outer fixing piece, the first inner fixing piece, the second inner fixing piece and the third inner fixing piece are located on the indoor side, the first outer fixing piece, the second outer fixing piece and the third outer fixing piece are located on the outdoor side, heat insulation air grooves are formed between the first inner fixing piece and the first outer fixing piece, between the second inner fixing piece and the second outer fixing piece and between the third inner fixing piece and the third outer fixing piece, and porous heat insulation rubber strips are arranged at two ends of each heat insulation air groove;

the drainage mechanism is arranged on the first outer fixing piece of the lower window frame and is close to the outdoor side, the drainage mechanism comprises a drainage hole formed in the top surface of the first outer fixing piece and a movable cover arranged on the outer side surface of the first outer fixing piece, the top end of the movable cover is rotatably connected with the first outer fixing piece, a drainage groove is further formed in the outer side surface of the first outer fixing piece and is communicated with the drainage hole, and the movable cover is arranged on a water outlet of the drainage groove.

Preferably, the first heat insulator, the second heat insulator and the third heat insulator comprise double layers of heat insulation glass, a filling strip is arranged between edges of the heat insulation glass, and a sealing rubber strip is arranged on the periphery of the filling strip.

Preferably, the porous heat insulation rubber strip and the protruding heat insulation rubber strip are respectively arranged at two ends of the heat insulation air groove between the third inner fixing piece and the third outer fixing piece.

Preferably, first outer firmware be close to the one end of outdoor side with the both ends that the outer firmware of second is close to outdoor side all are provided with first outer blank pressing, the one end that the outer firmware of third is close to outdoor side is provided with the side recess, be provided with outer backing strip in the side recess, outer backing strip with first outer blank pressing contacts, the other end that the outer firmware of third is close to outdoor side is provided with the outer blank pressing of second, the outer blank pressing orientation of second the direction of third insulator, first outer blank pressing with the end of the outer blank pressing of second is provided with claw shape draw-in groove.

Preferably, one end, close to the indoor side, of the third inner fixing part is provided with an inner hook edge, the inner hook edge faces the direction away from the third heat insulator, the tail end of the inner hook edge is provided with an inner groove, an inner padding strip is arranged in the inner groove, and the inner padding strip is in contact with the first inner fixing part or the second inner fixing part.

Preferably, the other end that the third interior firmware is close to indoor side, the one end that first interior firmware is close to indoor side and the one end that the second interior firmware is close to indoor side is provided with the arc profile, the end of arc profile is provided with the clamp plate, the clamp plate with first insulator the second insulator or between the third insulator and the claw shape draw-in groove with first insulator the second insulator or all be provided with the extrusion adhesive tape between the third insulator.

Preferably, the hinge is located between the movable window sash and the lower window frame, the hinge includes a movable plate and a fixed plate, the movable plate and the fixed plate are both rotatably connected with a pin shaft, the pin shaft is arranged on the inner side of the lower window frame, the tail end of the movable plate is fixedly connected with the bottom surface of the third internal fixing member located at the bottom of the movable window sash, and the tail end of the fixed plate is fixedly connected with the top surface of the first internal fixing member located in the lower window frame.

Therefore, the utility model adopts the above structure prevent that ponding one-way internal flush is windowed realizes the ponding in the window frame of discharging through the drainage mechanism that is located on the lower window frame, can avoid the rainwater to accumulate and flow in the window, and drainage mechanism can also realize that strong wind scrapes out-of-date balanced atmospheric pressure, and the window form does not produce the abnormal sound, and movable casement passes through the loose-leaf and is connected with the lower window frame rotation, realizes the downward internal flush and windows, reaches the ventilative function of ventilation.

The technical solution of the present invention is further described in detail by the accompanying drawings and embodiments.

Drawings

Fig. 1 is a schematic structural view of an embodiment of the ponding-preventing one-way inward casement window of the present invention;

fig. 2 is a schematic cross-sectional structure diagram of positions (1), (2) and (3) of the embodiment of the invention;

fig. 3 is a schematic structural diagram of longitudinal cross-sections at positions (4), (5), and (6) according to an embodiment of the present invention.

Reference numerals

1. An upper window frame; 11. a left window frame; 12. a lower window frame; 13. a right window frame; 14. a first insulator; 15. a first external firmware; 16. a first internal firmware; 17. a porous heat insulation rubber strip; 2. transversely erecting; 21. erecting in the vertical direction; 22. a second insulator; 23. a second external firmware; 24. a second internal firmware; 25. a first outer pressing edge; 26. heat insulating glass; 27. filling the strips; 28. sealing rubber strips; 29. a claw-shaped clamping groove; 3. an inner window frame; 31. a third insulator; 32. a third external firmware; 33. a third internal firmware; 34. second outer pressing; 35. a side groove; 36. an outwardly protruding heat insulation rubber strip; 37. an inner hook edge; 38. an inner groove; 4. an arc-shaped buckle strip; 41. pressing a plate; 42. extruding the adhesive tape; 5. loose leaves; 51. a movable plate; 52. a fixing plate; 53. a pin shaft; 6. a drainage mechanism; 61. a drain hole; 62. a movable cover; 63. a drainage groove.

Detailed Description

The technical solution of the present invention is further explained by the accompanying drawings and examples.

Examples

As shown in the figure, the ponding-preventing one-way inward casement window comprises an upper window frame 1, a left window frame 11, a lower window frame 12 and a right window frame 13 which are sequentially and vertically fixedly connected, wherein a transverse mullion 2 is horizontally and fixedly arranged between the left window frame 11 and the right window frame 13, a vertical mullion 21 is arranged between the transverse mullion 2 and the lower window frame 12, and a first heat insulator 14 is arranged in a rectangular region formed by the upper window frame 1, the left window frame 11, the right window frame 13 and the transverse mullion 2. The rectangular area formed by the transverse mullion 2, the left window frame 11, the lower window frame 12 and the vertical mullion 21 is internally provided with a movable window sash, the movable window sash is rotationally connected with the lower window frame 12 through a hinge 5, the movable window sash consists of four inner window frames 3 which are sequentially vertically and fixedly connected, and a second heat insulator 22 is arranged in the movable window sash. A third insulator 31 is provided in a rectangular region defined by the vertical mullion 21, the horizontal mullion 2, the lower sash 12, and the right sash 13.

The first insulator 14, the second insulator 22 and the third insulator 31 each include a double layer of insulating glass 26, and a filler strip 27 is provided between edges of the insulating glass 26, and the filler strip 27 is made of a steel or iron strip material and supports a distance between the two layers of insulating glass 26. The sealing rubber strips 28 are arranged on the peripheries of the filling strips 27, the heat insulation glass 26 and the filling strips 27 are bonded together through the sealing rubber strips 28, heat transfer of the heat insulator between the indoor side and the outdoor side is reduced, and heat insulation and sound insulation are achieved.

The upper window frame 1, the left window frame 11, the lower window frame 12 and the right window frame 13 respectively comprise a first outer fixing piece 15 and a first inner fixing piece 15, the transverse middle support 2 and the vertical middle support 21 respectively comprise a second outer fixing piece 23 and a second inner fixing piece 24, the inner window frame 3 comprises a third inner fixing piece 33 and a third outer fixing piece 32, the first inner fixing piece 15, the second inner fixing piece 24 and the third inner fixing piece 33 are located on the indoor side, the first outer fixing piece 15, the second outer fixing piece 23 and the third outer fixing piece 32 are located on the outdoor side, heat insulation air grooves are formed between the first inner fixing piece 15 and the first outer fixing piece 15, between the second inner fixing piece 24 and the second outer fixing piece 23 and between the third inner fixing piece 33 and the third outer fixing piece 32, porous heat insulation rubber strips 17 are arranged at two ends of the heat insulation air grooves, and the heat insulation rubber strips 17 reduce heat transfer between the inner fixing piece and the outer fixing piece, and have the functions of heat insulation and shock absorption.

The two ends of the heat insulation air groove between the third inner fixing piece 33 and the third outer fixing piece 32 are respectively provided with a porous heat insulation rubber strip 17 and an externally protruded heat insulation rubber strip 36.

The drainage mechanism 6 is arranged on the first outer fixing member 15 of the lower window frame 12, the drainage mechanism 6 is close to the outdoor side, the drainage mechanism 6 comprises a drainage hole 61 arranged on the top surface of the first outer fixing member 15 and a movable cover 62 arranged on the outer side surface of the first outer fixing member 15, the top end of the movable cover 62 is rotatably connected with the first outer fixing member 15, a drainage groove 63 is further arranged on the outer side surface of the first outer fixing member 15, the drainage groove 63 is communicated with the drainage hole 61, and the movable cover 62 is arranged on a water outlet of the drainage groove 63. The rainwater flowing into the lower window frame 12 from the outdoor side flows into the drainage groove 63 through the drainage hole 61, and then flows out to the outdoor by opening the movable cover 62, so that the rainwater can be prevented from accumulating in the lower window frame 12 and even flowing into the indoor. When high-speed wind blows out of the window, the movable cover 62 can balance the air pressure of the lower window frame 12 to form a pressure relief channel of air flow, and noise generated by the window body is reduced.

One end of the first external fixing piece 15 close to the outdoor side and two ends of the second external fixing piece 23 close to the outdoor side are both provided with first external pressing edges 25, one end of the third external fixing piece 32 close to the outdoor side is provided with a side groove 35, an external gasket strip is arranged in the side groove 35, and the external gasket strip is in contact with the first external pressing edges 25.

An inner hook edge 37 is arranged at one end, close to the indoor side, of the third inner fixing member 33, the inner hook edge 37 faces the direction away from the third heat insulator 31, an inner groove 38 is formed in the tail end of the inner hook edge 37, an inner padding strip is arranged in the inner groove 38, and the inner padding strip is in contact with the first inner fixing member 15 or the second inner fixing member 24. The inner and outer gasket strips provide cushioning when the movable sash is closed.

The other end of the third external fixing member 32 near the outdoor side is provided with a second external pressing edge 34, the second external pressing edge 34 faces the direction of the third heat insulator 31, and the tail ends of the first external pressing edge 25 and the second external pressing edge 34 are provided with claw-shaped clamping grooves 29.

Arc-shaped buckling strips 4 are arranged at the other end, close to the indoor side, of the third inner fixing piece 33, the end, close to the indoor side, of the first inner fixing piece 15 and the end, close to the indoor side, of the second inner fixing piece 24, pressing plates 41 are arranged at the tail ends of the arc-shaped buckling strips 4, and extrusion rubber strips 42 are arranged between the pressing plates 41 and the first heat insulator 14, the second heat insulator 22 or the third heat insulator 31 and between the claw-shaped clamping grooves 29 and the first heat insulator 14, the second heat insulator 22 or the third heat insulator 31. The claw-shaped clamping groove 29 and the arc-shaped buckling strip 4 fix the heat insulation glass 26 through the extrusion adhesive tape 42.

The hinge 5 is located between the movable window sash and the lower window frame 12, the hinge 5 includes a movable plate 51 and a fixed plate 52, the movable plate 51 and the fixed plate 52 are both rotatably connected with a pin 53, the pin 53 is disposed at the inner side of the lower window frame 12, the end of the movable plate 51 is fixedly connected with the bottom surface of the third fastener 33 located at the bottom of the movable window sash, and the end of the fixed plate 52 is fixedly connected with the top surface of the first fastener 15 located at the lower window frame 12. Under the connecting action of the loose-leaf 5, the movable window sash rotates around the first inner fixed piece 15 in the lower window frame 12, and the window is opened inwards.

Therefore, the utility model adopts the above structure prevent that one-way internal flush of ponding is windowed, realize the ponding in the window frame of discharging through drainage mechanism 6 that is located on lower window frame 12, can avoid the rainwater to accumulate and flow into in the window, drainage mechanism 6 can also realize scraping out-of-date balanced atmospheric pressure at the high wind, and the window form does not produce the abnormal sound, and the activity casement passes through loose-leaf 5 and is connected with lower window frame 12 rotation, realizes the downward internal flush and windows, reaches the ventilative function of ventilation.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solutions of the present invention and not for limiting the same, and although the present invention is described in detail with reference to the preferred embodiments, those skilled in the art should understand that: the technical solution of the present invention can still be modified or replaced by other equivalent means, and the modified technical solution can not be separated from the spirit and scope of the technical solution of the present invention.

Claims (7)

1. The utility model provides a prevent ponding one-way internal flush and open window which characterized in that: the heat insulation window comprises an upper window frame, a left window frame, a lower window frame and a right window frame which are sequentially and vertically and fixedly connected, wherein a transverse middle support is horizontally and fixedly arranged between the left window frame and the right window frame, a vertical middle support is arranged between the transverse middle support and the lower window frame, a first heat insulation body is arranged in a rectangular region formed by the upper window frame, the left window frame, the right window frame and the transverse middle support, a movable window sash is arranged in a rectangular region formed by the transverse middle support, the left window frame, the lower window frame and the vertical middle support, the movable window sash is rotatably connected with the lower window frame through loose leaves, the movable window sash consists of four inner window frames which are sequentially and vertically and fixedly connected, a second heat insulation body is arranged in the movable window sash, and a third heat insulation body is arranged in a rectangular region formed by the vertical middle support, the transverse middle support, the lower window frame and the right window frame;

the upper window frame, the left window frame, the lower window frame and the right window frame respectively comprise a first outer fixing piece and a first inner fixing piece, the transverse middle support and the vertical middle support respectively comprise a second outer fixing piece and a second inner fixing piece, the inner window frame comprises a third inner fixing piece and a third outer fixing piece, the first inner fixing piece, the second inner fixing piece and the third inner fixing piece are located on the indoor side, the first outer fixing piece, the second outer fixing piece and the third outer fixing piece are located on the outdoor side, heat insulation air grooves are formed between the first inner fixing piece and the first outer fixing piece, between the second inner fixing piece and the second outer fixing piece and between the third inner fixing piece and the third outer fixing piece, and porous heat insulation rubber strips are arranged at two ends of each heat insulation air groove;

the drainage mechanism is arranged on the first outer fixing piece of the lower window frame and is close to the outdoor side, the drainage mechanism comprises a drainage hole formed in the top surface of the first outer fixing piece and a movable cover arranged on the outer side surface of the first outer fixing piece, the top end of the movable cover is rotatably connected with the first outer fixing piece, a drainage groove is further formed in the outer side surface of the first outer fixing piece and is communicated with the drainage hole, and the movable cover is arranged on a water outlet of the drainage groove.

2. The water accumulation preventing one-way inward casement window according to claim 1, characterized in that: the first heat insulator, the second heat insulator and the third heat insulator comprise double layers of heat insulation glass, a filling strip is arranged between the edges of the heat insulation glass, and a sealing rubber strip is arranged on the periphery of the filling strip.

3. The water accumulation preventing one-way inward casement window according to claim 2, characterized in that: the porous heat insulation rubber strip and the protruding heat insulation rubber strip are respectively arranged at two ends of the heat insulation air groove between the third inner fixing piece and the third outer fixing piece.

4. The water accumulation preventing one-way inward casement window according to claim 3, characterized in that: first outer firmware be close to the one end of outdoor side with the both ends that the outer firmware of second is close to outdoor side all are provided with first outer blank pressing, the one end that the outer firmware of third is close to outdoor side is provided with the side recess, be provided with outer holding strip in the side recess, outer holding strip with first outer blank pressing contacts, the other end that the outer firmware of third is close to outdoor side is provided with the outer blank pressing of second, the outer blank pressing orientation of second the direction of third insulator, first outer blank pressing with the end of the outer blank pressing of second is provided with claw shape draw-in groove.

5. The water accumulation preventing one-way inward casement window according to claim 4, characterized in that: an inner hook edge is arranged at one end, close to the indoor side, of the third inner fixing piece, the inner hook edge faces the direction away from the third heat insulator, an inner groove is formed in the tail end of the inner hook edge, an inner padding strip is arranged in the inner groove, and the inner padding strip is in contact with the first inner fixing piece or the second inner fixing piece.

6. The water accumulation preventing one-way inward casement window according to claim 5, characterized in that: the other end that the firmware is close to indoor side in the third one end that the firmware is close to indoor side in the first one and the one end that the firmware is close to indoor side in the second is provided with the arc profile, the end of arc profile is provided with the clamp plate, the clamp plate with first insulator the second insulator or between the third insulator and claw shape draw-in groove with first insulator the second insulator or all be provided with the extrusion adhesive tape between the third insulator.

7. The water accumulation preventing one-way inward casement window according to claim 6, characterized in that: the hinge is located between the movable window sash and the lower window frame and comprises a movable plate and a fixed plate, the movable plate and the fixed plate are both rotatably connected with a pin shaft, the pin shaft is arranged on the inner side of the lower window frame, the tail end of the movable plate is fixedly connected with the bottom surface of the third internal fixing piece located at the bottom of the movable window sash, and the tail end of the fixed plate is fixedly connected with the top surface of the first internal fixing piece located on the lower window frame.

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