CN217326960U - Water-retaining window frame structure - Google Patents

Abstract

The utility model relates to the field of inwardly opened windows, in particular to a water retaining window frame structure, which comprises a window frame and a window sash, wherein the window sash is used for sealing the window frame, the window frame comprises a strip-shaped and horizontally arranged lower frame section, a containing cavity is arranged on the lower frame section, a drainage component is arranged in the containing cavity, the drainage component comprises an outer water storage plate, an inner water storage plate and a bridge cut-off component, the bridge cut-off component is arranged in the containing cavity, the outer water storage plate is fixedly arranged on one side, close to the outdoor, of the bridge cut-off component, and the outer water storage plate, the lower frame section and the bridge cut-off component jointly form an outer water storage tank; the inner water storage plate is fixedly arranged on one side of the bridge cut-off component far away from the outdoor and forms an inner water storage tank together with the lower frame profile and the bridge cut-off component; the volume of the outer water storage tank is larger than that of the inner water storage tank, and the outer water storage tank is communicated with the upper end of the inner water storage tank; the window sash can be abutted against the lower frame section when the window sash seals the window frame. This application has the effect that improves door and window's water proof ability.

Description

Water-retaining window frame structure

Technical Field

The application relates to the field of inwardly opened windows, in particular to a water retaining window frame structure.

Background

With the development of the building industry, people widely adopt aluminum profiles to manufacture doors and windows, and the aluminum profile doors and windows are widely favored by the majority of users due to the attractive appearance and fire resistance; with the development of cities, high-rise buildings are increased continuously, but the high-rise buildings are more easily attacked by rainwater in rainy days, and the rainwater can enter indoor walls through gaps among window frames more easily, so that the walls are peeled, peculiar smell is generated and the like; therefore, the doors and windows used by high-rise buildings need to have better waterproof performance, and the indoor environment is prevented from being damaged by rainwater.

With respect to the related art in the above, the inventors consider that: the waterproof performance of the existing window frame needs to be improved.

SUMMERY OF THE UTILITY MODEL

In order to improve the waterproof performance of window frame, this application provides a manger plate window frame structure.

The application provides a pair of manger plate window frame structure adopts following technical scheme:

a water blocking window frame structure comprises a window frame and a window sash, wherein the window sash is used for sealing the window frame, the window frame comprises a strip-shaped lower frame section bar which is horizontally arranged, an accommodating cavity is formed in the lower frame section bar, a drainage assembly is arranged in the accommodating cavity, the drainage assembly comprises an outer water storage plate, an inner water storage plate and a bridge cutoff assembly, the bridge cutoff assembly is arranged in the accommodating cavity, the outer water storage plate is fixedly arranged on one side, close to the outdoor, of the bridge cutoff assembly, and the outer water storage plate, the lower frame section bar and the bridge cutoff assembly form an outer water storage tank together; the inner water storage plate is fixedly arranged on one side of the bridge cut-off component far away from the outdoor and forms an inner water storage tank together with the lower frame profile and the bridge cut-off component; the volume of the outer water storage tank is larger than that of the inner water storage tank, and the outer water storage tank is communicated with the upper end of the inner water storage tank; the window sash can be abutted against the lower frame section when the window sash seals the window frame.

By adopting the technical scheme, in rainy weather, the window frame is sealed through the window sash, and meanwhile, the window sash is abutted against the lower frame section above the outer water storage tank; after the rainwater is patted on the casement, the rainwater passes through the gap and gets into outer basin in, because the volume of outer basin is greater than interior aqua storage tank for outer basin can hold more ponding, reduces from the basin interior aqua storage tank of flowing in outer basin in, and then reduces the inside user to the room of rainwater infiltration and causes the loss.

Optionally, a long-strip-shaped flashing plate is fixedly arranged on the window sash, when the window sash seals the window frame, the flashing plate is arranged above the lower frame section along the length direction parallel to the lower frame section, and the flashing plate is used for reducing rainwater infiltration into the outer water storage tank.

Through adopting above-mentioned technical scheme, pat the back on the casement when the rainwater, the rainwater falls into on the apron flashing from the casement, because the apron flashing is located the top of lower frame section bar, under the effect that blocks of apron flashing for in the outer water storage tank of difficult infiltration of rainwater, and then reduce the probability of infiltration in the room.

Optionally, the flashing is arranged in a manner of inclining towards the direction far away from the window sash along the direction close to the outer water storage tank.

Through adopting above-mentioned technical scheme, the apron flashing that the slope set up can play the effect of water conservancy diversion to the rainwater for the rainwater can fall from the casement fast, improves the discharge rate of rainwater on the casement, further reduces in the outer water storage tank of rainwater infiltration.

Optionally, a sealing rubber strip is arranged on the surface of the lower frame profile abutting against the window sash.

Through adopting above-mentioned technical scheme, joint strip's setting is filled the gap when the lower frame section bar butt of casement and outer water storage tank top, further reduces the gap, reduces the probability of rainwater infiltration outer water storage tank.

Optionally, an isobaric adhesive tape is fixedly connected to the bridge cut-off assembly, an abutting bridge cut-off is arranged on the window sash, and the abutting bridge cut-off can abut against the isobaric adhesive tape when the window sash seals the window frame; the butt broken bridge and the isobaric rubber strip are used for separating the outer water storage tank and the inner water storage tank.

Through adopting above-mentioned technical scheme, when the casement seals the window frame, butt bridge cut-off cuts off with isobaric adhesive tape butt to outer aqua storage tank and interior aqua storage tank for the water in outer aqua storage tank is difficult for oozing into in the aqua storage tank, and then reduces the inside possibility in rainwater infiltration house.

Optionally, a drainage assembly is arranged on the lower frame section, the drainage assembly comprises a connecting rod, a connecting sleeve is fixedly sleeved on the connecting rod, a drain hole is formed in one end side wall, close to the outside, of the outer water storage tank, a connecting cylinder is arranged in the outer water storage tank, the connecting cylinder is coaxially communicated with the drain hole, and the connecting sleeve can be arranged in the connecting cylinder in a penetrating manner and is in threaded connection with the connecting cylinder.

Through adopting above-mentioned technical scheme, after outer water storage tank interior deposit too much ponding, through rotating the connecting rod for connecting sleeve revolves out in the connecting cylinder, and then breaks away from in the drain hole, makes outer water storage tank interior rivers can discharge from the drain hole through the connecting cylinder, avoids piling up of rainwater to cause the harm to the lower frame section bar.

Optionally, a mounting piece is fixedly arranged on a side wall of the lower frame section bar on the side away from the connecting cylinder, a containing hole is formed in the mounting piece, and the containing hole and the drain hole are coaxially arranged and are larger than the drain hole in size; and a baffle ring is coaxially and fixedly arranged at the opening of the mounting piece, which is deviated from the water drain hole, and the baffle ring is used for preventing the connecting sleeve from being separated from the accommodating hole.

By adopting the technical scheme, the connecting rod is rotated to enable the connecting sleeve to enter the accommodating hole through the drain hole, and then accumulated water in the outer water storage tank can flow out through the drain hole and the accommodating hole; meanwhile, under the action of the retaining ring, the connecting sleeve is not easy to be separated from the containing hole, and the stability of the connecting sleeve and the connecting rod in use is improved.

Optionally, a baffle is fixedly arranged at one end, away from the connecting sleeve, of the connecting rod, and the baffle is located on one side, away from the accommodating hole, of the baffle ring and used for sealing the accommodating hole.

Through adopting above-mentioned technical scheme, back in the connecting sleeve precession connecting cylinder, the connecting rod drives the baffle butt on keeping off the ring, carries out the shutoff to the hole that keeps off the ring to make the rainwater be difficult for following and keeping off the intra-annular outflow.

In summary, the present application includes the following beneficial technical effects:

during rainwater weather, rotate the casement and make the casement seal up the window frame, the rainwater is patted on the casement back through in the gap inflow outer water storage tank of casement and lower frame section bar butt, because the volume of outer water storage tank is greater than interior aqua storage tank, this makes the rainwater hoarding up and is difficult for flowing in the inside aqua storage tank in outer aqua storage tank, reduces the probability in rainwater infiltration room, avoids the harm that the infiltration led to the fact the room.

Drawings

FIG. 1 is a schematic overall structure diagram of an embodiment of the present application;

FIG. 2 is a partial cross-sectional view taken at 1-1 of FIG. 1;

FIG. 3 is an enlarged view of a portion of FIG. 2 at A;

fig. 4 is an exploded view of a drain assembly according to an embodiment of the present application.

Reference numerals: 1. a window sash; 2. a window frame; 21. frame section bar; 22. an upper frame section bar; 23. a lower frame section bar; 3. a water storage assembly; 31. an outer water storage plate; 32. an inner water storage plate; 33. an inner water storage tank; 34. an outer water storage tank; 35. a bridge cutoff assembly; 351. a support member; 352. c-shaped bridge cut-off; 353. a type I bridge cut-off; 4. a flashing; 5. sealing rubber strips; 6. an isobaric glue strip; 61. abutting the broken bridge; 7. a drainage assembly; 71. a connecting rod; 72. a connecting sleeve; 73. a connecting cylinder; 74. a mounting member; 75. an accommodation hole; 76. a drain hole; 8. a baffle plate; 9. and (4) a baffle ring.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

Referring to fig. 1, the water-blocking window frame structure comprises a window frame 2 and a window sash 1, wherein the window frame 2 comprises a strip-shaped frame section bar 21, an upper frame section bar 22 and a lower frame section bar 23, and the upper frame section bar 22 and the lower frame section bar 23 are horizontal and are oppositely arranged; the upper frame section 22 and the lower frame section 23 are respectively fixed on the wall body through cement pouring; the number of the frame profiles 21 is two, the two groups of frame profiles 21 are both perpendicular to the length direction of the upper frame profile 22, and the two groups of frame profiles 21 are connected with the two ends of the upper frame profile 22 and the lower frame profile 23 through pan head self-tapping screws in a threaded manner; the two groups of frame profiles 21, the upper frame profile 22 and the lower frame profile 23 form a window frame 2 with a rectangular frame structure; the window sash 1 is connected to the window frame 2 by a hinge and is used for sealing the window frame 2.

Referring to fig. 2 and 3, the lower frame section 23 is provided with an accommodating cavity, and a water storage assembly 3 for preventing rainwater from flowing into the house is arranged in the accommodating cavity; the water storage assembly 3 comprises an outer water storage plate 31, an inner water storage plate 32 and a bridge cutoff assembly 35, the bridge cutoff assembly 35 comprises a supporting piece 351, a C-shaped bridge cutoff 352 and an I-shaped bridge cutoff 353, the supporting piece 351 is of a cavity structure and is integrally connected to the lower frame section 23, the C-shaped bridge cutoff 352 and the I-shaped bridge cutoff 353 are horizontally arranged and are in adhesive connection with the cavity structure of the supporting piece 351, and the C-shaped bridge cutoff 352 and the I-shaped bridge cutoff 353 are uniformly arranged in the vertical direction; the outer water storage plate 31 is positioned on one side, close to the outside of the house, of the supporting piece 351, one end of the outer water storage plate 31 is integrally connected to the supporting piece 351, the other end of the outer water storage plate 31 is integrally connected to the side wall, close to one end of the outside of the house, of the lower frame section 23, and the outer water storage plate 31, the supporting piece 351 and the lower frame section 23 form an outer water storage tank 34 for storing water together; the inner water storage plate 32 is positioned on one side, far away from the outside of the house, of the supporting piece 351, one end of the inner water storage plate 32 is integrally connected to the supporting piece 351, the other end of the inner water storage plate is integrally connected to the side wall, close to one end inside the house, of the lower frame section 23, the inner water storage plate 32, the supporting piece 351 and the lower frame section 23 jointly form an inner water storage tank 33, the inner water storage plate 32 and the outer water storage plate 31 are horizontally arranged, and the inner water storage tank 33 is communicated with the upper end of the outer water storage tank 34; the depth and the volume of the outer water storage tank 34 are both larger than those of the inner water storage tank 33; referring to fig. 1, when the window sash 1 closes the window frame 2, the window sash 1 abuts against the side wall of the end of the lower frame section 23 close to the outside of the house.

Referring to fig. 2 and 3, when rain weather, rain water is easy to flow into the outer water storage tank 34 along the gap between the abutting surfaces of the window sash 1 and the lower frame section bar 23 after beating the window sash 1, and the volume of the outer water storage tank 34 is larger than that of the inner water storage tank 33, so that more accumulated water can be contained, the accumulated water is reduced, and the rain water is prevented from permeating into the room from flowing into the inner water storage tank 33 from the outer water storage tank 34.

Referring to fig. 2 and 3, a flashing 4 is arranged at one end of the sash 1 close to the outside, the flashing 4 is a strip-shaped plate, one end of the flashing 4 is welded on the sash 1 and is positioned above the lower frame section bar 23, when the sash 1 closes the window frame 2, the length direction of the flashing 4 is parallel to the length direction of the lower frame section bar 23, and one end of the flashing 4 departing from the sash 1 extends towards the direction close to the lower frame section bar 23 and is inclined towards the direction far away from the sash 1; after the rainwater is flapped on the casement 1, the rainwater falls into the flashing 4, and the flashing 4 that leans out sets up is used for the water conservancy diversion rainwater for the rainwater is timely discharged from the flashing 4, reduces the probability that the rainwater flows into outer water storage tank 34 along the gap between casement 1 and the lower frame section bar 23 butt surface, further reduces the indoor probability of rainwater infiltration.

Referring to fig. 3, the surface of the lower frame section 23 abutting against the window sash 1 is glued with the sealing rubber strip 5, and the sealing rubber strip 5 has certain elasticity, so that the sealing performance of the window sash 1 abutting against the lower frame section 23 can be improved, and the rainwater infiltration into the outer water storage tank 34 can be reduced.

Referring to fig. 2 and 3, an isobaric adhesive tape 6 is glued and fixed on the bridge cutoff component 35, a butt bridge cutoff 61 is glued and fixed on the window sash 1, the butt bridge cutoff 61 is located above the isobaric adhesive tape 6, when the window sash 1 closes the window frame 2, the lower end of the butt bridge cutoff 61 is overlapped and attached with the upper end of the isobaric adhesive tape 6, so that the butt bridge cutoff 61 and the isobaric adhesive tape 6 separate the outer water storage tank 34 and the inner water storage tank 33; under the effect of the partition of the abutting broken bridge 61 and the isobaric rubber strip 6, when the window sash 1 closes the window frame 2, accumulated water in the outer water storage tank 34 is not easy to flow into the inner water storage tank 33, and rainwater infiltration into a room is reduced.

Referring to fig. 3 and 4, a drainage assembly 7 for draining rainwater in time is arranged in the inner water storage tank 33, the drainage assembly 7 comprises a connecting rod 71, a drainage hole 76 is formed in the side wall of the lower frame section 23 close to the outside, and the drainage hole 76 is communicated with the outer water storage tank 34; a connecting cylinder 73 with openings at two ends is arranged in the outer water storage tank 34, one end of the connecting cylinder 73 is coaxially welded and communicated with the water drain hole 76, and the inner wall of the connecting cylinder 73 is provided with threads; the side wall of one end, away from the connecting cylinder 73, of the lower frame section 23 is welded with a mounting piece 74, the mounting piece 74 is provided with a containing hole 75 coaxially communicated with the drainage hole 76, and the diameter of the containing hole 75 is larger than that of the drainage hole 76; the connecting rod 71 is a long strip-shaped rod, a connecting sleeve 72 is arranged on the connecting rod 71, the connecting sleeve 72 is coaxially sleeved and welded at one end of the connecting rod 71, a thread is arranged on the outer wall of the connecting sleeve 72, and the connecting sleeve 72 can be arranged in the connecting cylinder 73 in a penetrating manner and is in threaded connection with the connecting cylinder 73; when it is necessary to close the water discharge hole 76, the connecting rod 71 is rotated so that the connecting sleeve 72 is screwed into the connecting cylinder 73 and screwed with the connecting cylinder 73 while the connecting rod 71 is located in the receiving hole 75.

Referring to fig. 4, a baffle ring 9 is welded at one end of the mounting piece 74, which is away from the drain hole 76, the baffle ring 9 is arranged in a circular ring shape, an outer ring of the baffle ring 9 is coaxially arranged with the receiving hole 75, and the size of an inner ring of the baffle ring 9 is larger than that of the connecting rod 71 and smaller than that of the connecting sleeve 72, so that after the connecting sleeve 72 is screwed out of the connecting cylinder 73, the connecting sleeve 72 enters the receiving hole 75, and is not easy to disengage from the receiving hole 75 under the blocking effect of the baffle ring 9, and meanwhile, water flow of the outer water storage tank 34 can be quickly discharged through the drain hole 76 and the receiving hole 75, thereby avoiding damage of accumulation of rainwater to the lower frame section bar 23.

Referring to fig. 4, the baffle 8 is welded at one end of the connecting rod 71 departing from the connecting sleeve 72, the size of the baffle 8 is larger than the aperture of the inner ring of the baffle ring 9 and can abut against the baffle ring 9, so that when the connecting sleeve 72 is screwed into the connecting cylinder 73, the connecting rod 71 drives the baffle 8 to abut against the baffle ring 9 to block the baffle ring 9, and the sealing performance of the lower frame section bar 23 is improved.

The implementation principle of a manger plate window frame structure of the embodiment of this application does: in rainy days, the window frame 2 is sealed through the window sash 1, one part of rainwater beaten on the window sash 1 is quickly discharged through the flow guiding effect of the flashing 4, and meanwhile, one part of rainwater seeps into the outer water storage tank 34 through a gap between the window sash 1 and the lower frame section bar 23 in a butting mode, and due to the fact that the volume of the outer water storage tank 34 is large, the rainwater is not easy to flow into the inner water storage tank 33 from the inner water storage tank 34 under the blocking effect of the butting broken bridge 61 and the isobaric rubber strip 6, and the rainwater is further prevented from seeping into the indoor space; by rotating the connecting rod 71, the connecting sleeve 72 slides into the accommodating hole 75, rainwater can be drained through the drain hole 76 and the accommodating hole 75, and damage to the inward opening window caused by accumulated water is reduced.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a manger plate window frame structure, includes window frame (2) and casement (1), its characterized in that: the window sash (1) is used for sealing the window frame (2), the window frame (2) comprises a strip-shaped lower frame section bar (23) which is horizontally arranged, a containing cavity is formed in the lower frame section bar (23), a drainage assembly (7) is arranged in the containing cavity, the drainage assembly (7) comprises an outer water storage plate (31), an inner water storage plate (32) and a bridge cut-off assembly (35), the bridge cut-off assembly (35) is arranged in the containing cavity, the outer water storage plate (31) is fixedly arranged on one side, close to the outdoors, of the bridge cut-off assembly (35), and the outer water storage plate (31), the lower frame section bar (23) and the bridge cut-off assembly (35) jointly form an outer water storage tank (34); the inner water storage plate (32) is fixedly arranged on one side of the bridge cut-off component (35) far away from the outdoor and forms an inner water storage tank (33) together with the lower frame profile (23) and the bridge cut-off component (35); the volume of the outer water storage tank (34) is larger than that of the inner water storage tank (33), and the outer water storage tank (34) is communicated with the upper end of the inner water storage tank (33); the window sash (1) can be abutted against the lower frame section bar (23) when the window sash (1) seals the window frame (2).

2. The water deflector window frame structure of claim 1, wherein: the window sash (1) is fixedly provided with a long-strip-shaped flashing (4), when the window sash (1) seals the window frame (2), the flashing (4) is arranged above the lower frame section (23) along the length direction parallel to the lower frame section (23), and the flashing (4) is used for reducing rainwater infiltration in the outer water storage tank (34).

3. The water deflector window frame structure of claim 2, wherein: the flashing (4) is obliquely arranged along the direction close to the outer water storage tank (34) and towards the direction far away from the window sash (1).

4. The water deflector window frame structure of claim 1, wherein: and a sealing rubber strip (5) is arranged on the surface of the lower frame section (23) abutted against the window sash (1).

5. The water deflector window frame structure of claim 1, wherein: the bridge cut-off component (35) is fixedly connected with an isobaric adhesive tape (6), the window sash (1) is provided with a butt bridge cut-off (61), and when the window sash (1) seals the window frame (2), the butt bridge cut-off (61) can be abutted to the isobaric adhesive tape (6); the abutting broken bridge (61) and the isobaric rubber strip (6) are used for separating the outer water storage tank (34) and the inner water storage tank (33).

6. The water deflector window frame structure of claim 1, wherein: the drainage assembly (7) is arranged on the lower frame section bar (23), the drainage assembly (7) comprises a connecting rod (71), a connecting sleeve (72) is fixedly sleeved on the connecting rod (71), a drainage hole (76) is formed in one end side wall, close to the outside, of the lower frame section bar (23), a connecting cylinder (73) is arranged in the outer water storage tank (34), the connecting cylinder (73) is coaxially communicated with the drainage hole (76), and the connecting sleeve (72) can be arranged in the connecting cylinder (73) in a penetrating mode and is in threaded connection with the connecting cylinder (73).

7. The water deflector window frame structure of claim 6, wherein: a mounting piece (74) is fixedly arranged on the side wall of one side, away from the connecting cylinder (73), of the lower frame section bar (23), a containing hole (75) is formed in the mounting piece (74), the containing hole (75) and the drain hole (76) are coaxially arranged, and the size of the containing hole is larger than that of the drain hole (76); the opening of the mounting piece (74) departing from the water discharge hole (76) is coaxially and fixedly provided with a baffle ring (9), and the baffle ring (9) is used for preventing the connecting sleeve (72) from falling out of the accommodating hole (75).

8. The water deflector window frame structure of claim 7, wherein: the connecting rod (71) deviates from one end of the connecting sleeve (72) and is fixedly provided with a baffle (8), and the baffle (8) is positioned on one side of the baffle ring (9) deviating from the accommodating hole (75) and is used for sealing the accommodating hole (75).

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