CN216277588U - Sliding window rail sealing and drainage structure - Google Patents
Sliding window rail sealing and drainage structure Download PDFInfo
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- CN216277588U CN216277588U CN202121790218.3U CN202121790218U CN216277588U CN 216277588 U CN216277588 U CN 216277588U CN 202121790218 U CN202121790218 U CN 202121790218U CN 216277588 U CN216277588 U CN 216277588U
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- outdoor
- sliding sash
- sliding
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- 238000007789 sealing Methods 0.000 title claims abstract description 27
- 239000000463 material Substances 0.000 claims abstract description 58
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- 239000002390 adhesive tape Substances 0.000 claims description 30
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Abstract
The utility model discloses a sliding window rail sealing and drainage structure which comprises a sliding window rail, an outdoor side sliding sash transverse material, an indoor side sliding sash transverse material, an outdoor side sliding sash hooked rabbet and an indoor side sliding sash hooked rabbet, wherein the height of one side of the indoor rail of the sliding window rail is higher than that of one side of the outdoor rail; a track cover plate is arranged between an outdoor track and an indoor track of the sliding window track, and the upper part of the track cover plate is connected between the outdoor side sliding sash transverse material and the indoor side sliding sash transverse material; a wind stop block is filled between the outdoor side sliding sash hooked rabbet and the indoor side sliding sash hooked rabbet; and a first hooked rabbet rubber strip and a second hooked rabbet rubber strip are respectively arranged between the outdoor side sliding sash hooked rabbet and the indoor side sliding sash hooked rabbet on the two sides of the air stop block. The utility model can drain water under the action of gravity, can prevent rainwater from entering one indoor side, can discharge the rainwater on one indoor side to the outside, can prevent rainwater from flowing into the room from gaps between the hooked rabbet and can prevent lateral rainwater from flowing into the room.
Description
Technical Field
The utility model belongs to the technical field of sliding windows, and particularly relates to a sliding window rail sealing and drainage structure.
Background
In current building door and window, the austral window, sliding sash is liked by people because its possess not account for the interior space, open advantages such as convenient, draught area is big, but it also has the not good problem of leakproofness, the condition of indoor intaking appears.
The common treatment method is to seal the gap between the lower part of the fan material and the rail by using a rubber strip or a wool top, but the gap cannot prevent wind and rain from permeating into the room.
SUMMERY OF THE UTILITY MODEL
The utility model aims to provide a sliding window track sealing and draining structure which is used for solving the problems in the prior art.
In order to achieve the purpose, the utility model adopts the following technical scheme:
a sliding window rail sealing and drainage structure comprises a sliding window rail, an outdoor side sliding window horizontal material, an indoor side sliding window horizontal material, an outdoor side sliding window hooked rabbet and an indoor side sliding window hooked rabbet, wherein the sliding window rail, the outdoor side sliding window horizontal material, the indoor side sliding window horizontal material and the indoor side sliding window hooked rabbet are combined to form a sliding window; the height of one side of the indoor track on the upper end surface of the sliding window track in the horizontal direction is higher than that of one side of the outdoor track in the horizontal direction; a track cover plate is arranged at a channel between an outdoor track and an indoor track of the sliding window track, the upper part of the track cover plate is connected between an outdoor side sliding sash transverse material and an indoor side sliding sash transverse material and used for preventing rainwater from entering the indoor side from the outdoor side of the sliding window track through the track cover plate and discharging the rainwater entering the indoor side of the sliding window track to the outdoor side through the track cover plate;
the air stop block is filled between the outdoor side sliding sash hooked rabbet and the indoor side sliding sash hooked rabbet and used for preventing water from flowing into the indoor space through a gap between the outdoor side sliding sash hooked rabbet and the indoor side sliding sash hooked rabbet; and a first hooked rabbet rubber strip and a second hooked rabbet rubber strip are respectively arranged between the outdoor side sliding sash hooked rabbet and the indoor side sliding sash hooked rabbet on the two sides of the air stop block, so that lateral rainwater is prevented from flowing into the indoor space through a gap between the outdoor side sliding sash hooked rabbet and the indoor side sliding sash hooked rabbet.
Preferably, a first drainage hole is formed in the position of the side edge of the outdoor side of the sliding window track; and a second drain hole is formed in the outdoor rail of the sliding window rail. In the preferred mode, because the height of one side of the indoor track of the upper end surface of the sliding window track in the horizontal direction is higher than that of one side of the outdoor track in the horizontal direction, rainwater falling into the sliding window track can be gathered at the position of the side edge of the outdoor side of the sliding window track and can be just discharged through the first drainage hole, and a good drainage effect is achieved; rainwater entering the indoor side of the outdoor rail of the sliding window rail flows to the outdoor side of the outdoor rail of the sliding window rail from the second drainage hole, and then is discharged through the first drainage hole, and all rainwater entering the sliding window rail is discharged, so that the optimal drainage effect is achieved.
More preferably, the upper end of the rail cover plate is provided with a first rail rubber strip, and the first rail rubber strip is arranged between the outdoor side sliding sash transverse material and the rail cover plate and used for preventing rainwater from flowing into the room through a channel between the outdoor side sliding sash transverse material and the rail cover plate. In the preferred mode, the first rail rubber strip abuts against the outdoor side sliding sash transverse material, so that the stability of the outdoor side sliding sash transverse material is guaranteed, and meanwhile, the first rail rubber strip is used for preventing rainwater from flowing into a room upwards through a channel between the outdoor side sliding sash transverse material and the rail cover plate.
Still further preferably, the first rail rubber strip has a semi-open structure. In the preferred mode, when strong wind exists outside the room, the wind can be poured into the first rail rubber strip from the side surface of the sliding sash, and the first rail rubber strip can expand outwards under the influence of the wind and extrude the outdoor sliding sash cross material serving as the section again, so that the sealing effect of the whole window is further enhanced.
More preferably, the upper end of the rail cover plate is provided with a second rail rubber strip, and the second rail rubber strip is arranged between the indoor side sliding sash transverse material and the rail cover plate and used for preventing rainwater from flowing into the room upwards through a channel between the indoor side sliding sash transverse material and the rail cover plate. In this preferred mode, the second rail adhesive tape abuts against the indoor side sliding sash transverse material, so that the stability of the indoor side sliding sash transverse material is guaranteed, and rainwater is prevented from overflowing into the indoor space through a channel between the indoor side sliding sash transverse material and the rail cover plate.
Still further preferably, the second rail rubber strip has a semi-open structure. In the preferred mode, when strong wind exists outside the room, the wind can be poured into the second rail rubber strip from the side surface of the sliding sash, and the second rail rubber strip can expand outwards under the influence of the wind and extrude the indoor sliding sash rail material serving as the profile again, so that the sealing effect of the whole window is further enhanced.
Still further preferably, a first extending portion is disposed on an indoor side of the rail cover plate, the first extending portion extends from an outer side of the indoor side sliding sash transverse material to an inner side of the indoor side sliding sash transverse material, and a third rail rubber strip is mounted between the inner side of the indoor side sliding sash transverse material and the first extending portion and used for preventing rainwater from flowing into the indoor space through a channel between the indoor side sliding sash transverse material and the first extending portion. In this preferred mode, the third rail adhesive tape abuts against the inner side of the indoor side sliding sash transverse material, and is matched with the second rail adhesive tape, so that the stability of the indoor side sliding sash transverse material is jointly guaranteed, and rainwater is prevented from overflowing into the room through a channel between the indoor side sliding sash transverse material and the first extension portion.
It is further preferred that the third track strip is a semi-open structure. In the preferred mode, when strong wind exists outside the room, the wind can be poured into the third rail rubber strip from the side surface of the sliding sash, and the third rail rubber strip can expand outwards under the influence of the wind and extrude the indoor sliding sash rail material serving as the profile again, so that the sealing effect of the whole window is further enhanced.
Still more preferably, the outdoor side of the rail cover plate is provided with a second extending portion, the second extending portion extends from the outer side of the outdoor side sliding sash transverse material to the inner side of the outdoor side sliding sash transverse material, and the lower end of the second extending portion is provided with a third drain hole. In the preferred mode, the second extension part is abutted with an outdoor rail of the sliding window rail, so that the stability of the rail cover plate is enhanced, and meanwhile, the sealing property between the outdoor sliding sash transverse material and the rail cover plate is enhanced; a small amount of rainwater entering from the upper part of the outdoor rail of the sliding window rail is discharged onto the sliding window rail through the third drain holes, and then the rainwater is discharged by utilizing the structure of the sliding window rail.
Still more preferably, a fourth drainage hole is formed at a lower end of the rail cover plate, and a fifth drainage hole is formed at a lower end of the first extension portion. In this preferred mode, the rainwater on the track of austral window, sliding sash can be discharged to outdoor through the fourth wash port, avoids the track apron to block rainwater and outwards, will follow the outdoor one side of track apron and sputter a small amount of rainwater that gets into the indoor one side of track apron and discharge to the austral window, sliding sash track through the fifth wash port on, then utilize the orbital structure of austral window, sliding sash to discharge out the rainwater.
Has the advantages that: the upper end surface of the sliding window track is designed into a stepped or inclined structure, wherein the height of one side of the indoor track in the horizontal direction is higher than that of one side of the outdoor track in the horizontal direction, so that rainwater falling into the upper end surface of the sliding window track can be drained by gravity, and can be preferentially drained from a low-rail position on the outer side of the sliding window track when the rainfall is large, and the drainage effect is ensured; the sliding window rail is provided with the rail cover plate connected between the outdoor side sliding sash transverse material and the indoor side sliding sash transverse material, so that rainwater is prevented from entering the indoor side from the outdoor side through the rail cover plate to play a role of blocking, and the rainwater entering the indoor side is discharged to the outdoor side through the rail cover plate, so that the drainage performance of the sliding window is better; the air stop block used as an auxiliary part is arranged at the superposition position of the outdoor side sliding sash hooked rabbet and the indoor side sliding sash hooked rabbet and used for filling gaps between the outdoor side sliding sash hooked rabbet and the indoor side sliding sash hooked rabbet or gaps between the track cover plate and the outdoor side sliding sash hooked rabbet and the indoor side sliding sash hooked rabbet and preventing water from flowing into a room through gaps between the outdoor side sliding sash hooked rabbet and the indoor side sliding sash hooked rabbet; a first hooked rabbet rubber strip and a second hooked rabbet rubber strip are respectively arranged between the outdoor side sliding sash hooked rabbet and the indoor side sliding sash hooked rabbet on the two sides of the air stop block and are used for sealing a gap between the outdoor side sliding sash hooked rabbet and the indoor side sliding sash hooked rabbet of the air-tight chamber and preventing lateral rainwater from flowing into the indoor chamber through a gap between the outdoor side sliding sash hooked rabbet and the indoor side sliding sash hooked rabbet.
Drawings
FIG. 1 is a side view of the present invention from a perspective between the outdoor side sash rail and the indoor side sash rail;
FIG. 2 is a top view of the view between the outdoor side sash hook and the indoor side sash hook of the present invention;
fig. 3 is a schematic view of the third track rubber strip on the track cover plate of the utility model changing from a no-wind state to a strong-wind state.
Reference numerals: 1-sliding window rail; 2-sliding sash horizontal material outside the room; 3-a track cover plate; 4-sliding sash horizontal material at the indoor side; 5-wind stopping block; 6-a first track adhesive tape; 7-a second track adhesive tape; 8-a third track adhesive tape; 9-hooked rabbet of the outdoor side sliding sash; 10-indoor side sliding sash hooked rabbet; 11-a first hooked rabbet rubber strip; 12-a second hooked rabbet rubber strip; 13-a first drain hole; 14-a second drain hole; 15-third drain hole; 16-a fourth drain hole; 17-fifth drain hole.
Detailed Description
Example (b):
as shown in fig. 1-3, the embodiment provides a sliding window rail sealing and drainage structure, which includes a sliding window rail 1, an outdoor side sliding window horizontal member 2, an indoor side sliding window horizontal member 4, an outdoor side sliding window hooked rabbet 9 and an indoor side sliding window hooked rabbet 10, all of which are arranged according to the conventional structure of the existing sliding window, wherein the outdoor side sliding window horizontal member 2 is installed at the outdoor rail of the sliding window rail 1, and the indoor side sliding window horizontal member 4 is installed at the indoor rail of the sliding window rail 1; the height of one side of the indoor track of the upper end surface of the sliding window track 1 in the horizontal direction is higher than that of one side of the outdoor track in the horizontal direction, namely the outermost track is slightly lower than the inner track, so that a stepped or inclined structure is formed, the sliding window track 1 is more favorable for draining water under the action of gravity, and rainwater can be preferentially drained from a low-track position on the outer side of the sliding window track 1 when the rainfall is large, so that the drainage effect is ensured; a track cover plate 3 is arranged at a channel between an outdoor track and an indoor track of the sliding window track 1, the upper part of the track cover plate 3 is connected between an outdoor side sliding sash transverse material 2 and an indoor side sliding sash transverse material 4, so that rainwater is prevented from entering an indoor side from an outdoor side through the track cover plate 3 to play a role of blocking, and the rainwater entering the indoor side is discharged to the outdoor side through the track cover plate 3, so that the drainage performance of the sliding window is better;
usually, a certain distance is arranged between the outdoor side sliding sash hooked rabbet 9 and the sliding sash track 1, between the sliding sash track 1 and the track cover plate 3, between the track cover plate 3 and the indoor side sliding sash hooked rabbet 10, and between the indoor side sliding sash hooked rabbet 10 and the sliding sash track 1, the gap is the key position for water inlet of the door and window, therefore, the air stop block 5 used as an auxiliary part is arranged at the superposed position of the outdoor side sliding sash hooked rabbet 9 and the indoor side sliding sash hooked rabbet 10, namely, the air stop block 5 is filled between the outdoor side sliding sash hooked rabbet 9 and the indoor side sliding sash hooked rabbet 10, the gap between the outdoor side sliding sash hooked rabbet 9 and the indoor side sliding sash hooked rabbet 10 or the gap between the track cover plate 3 and the outdoor side sliding sash hooked rabbet 9 and the indoor side sliding sash hooked rabbet 10 is filled, and water flow is prevented from flowing into the indoor through the gap between the outdoor side sliding sash hooked rabbet 9 and the indoor side sliding sash hooked rabbet 10; a first hooked rabbet rubber strip 11 and a second hooked rabbet rubber strip 12 are respectively arranged between an outdoor side sliding sash hooked rabbet 9 and an indoor side sliding sash hooked rabbet 10 on two sides of the air stop block 5 and are used for preventing lateral rainwater from flowing into the indoor space through a gap between the outdoor side sliding sash hooked rabbet 9 and the indoor side sliding sash hooked rabbet 10 in a gap between the sealed outdoor side sliding sash hooked rabbet 9 and the indoor side sliding sash hooked rabbet 10.
The upper end surface of the sliding window track 1 is designed into a stepped or inclined structure, wherein the height of one side of the indoor track in the horizontal direction is higher than that of one side of the outdoor track in the horizontal direction, so that rainwater falling into the upper end surface of the sliding window track 1 can be drained by gravity, the sliding window track 1 is more favorable for draining, and when the rainfall is large, the rainwater can be preferentially drained from a low-rail position on the outer side of the sliding window track 1, and the drainage effect is ensured; the sliding window rail 1 is provided with a rail cover plate 3 connected between an outdoor side sliding sash transverse material 2 and an indoor side sliding sash transverse material 4, so that rainwater is prevented from entering an indoor side from an outdoor side through the rail cover plate 3 to play a role of blocking, and the rainwater entering the indoor side is discharged to the outdoor side through the rail cover plate 3, so that the drainage performance of the sliding window is better; according to the air-tight door structure, the air-tight block 5 used as an auxiliary part is arranged at the overlapping position of the outdoor side sliding sash hooked rabbet 9 and the indoor side sliding sash hooked rabbet 10 and used for filling gaps between the outdoor side sliding sash hooked rabbet 9 and the indoor side sliding sash hooked rabbet 10 or gaps between the track cover plate 3 and the outdoor side sliding sash hooked rabbet 9 and the indoor side sliding sash hooked rabbet 10 and preventing water from flowing into a room through gaps between the outdoor side sliding sash hooked rabbet 9 and the indoor side sliding sash hooked rabbet 10; a first hooked rabbet rubber strip 11 and a second hooked rabbet rubber strip 12 are respectively arranged between an outdoor side sliding sash hooked rabbet 9 and an indoor side sliding sash hooked rabbet 10 on two sides of the wind stop block 5 and are used for sealing a gap between the outdoor side sliding sash hooked rabbet 9 and the indoor side sliding sash hooked rabbet 10 and preventing lateral rainwater from flowing into a room through a gap between the outdoor side sliding sash hooked rabbet 9 and the indoor side sliding sash hooked rabbet 10.
As a specific implementation manner, in this embodiment, it is further described that a first drainage hole 13 is arranged at a side edge of the outdoor side of the sliding window rail 1, that is, the first drainage hole 13 is arranged at an edge of the sliding window rail 1, because the height of the indoor rail side of the upper end surface of the sliding window rail 1 in the horizontal direction is higher than the height of the outdoor rail side in the horizontal direction, rainwater falling into the sliding window rail 1 can be collected at the side edge of the outdoor side of the sliding window rail 1 and can be just discharged through the first drainage hole 13, so as to achieve a good drainage effect; the outdoor rail of the sliding window rail 1 is provided with the second drain hole 14, so that rainwater entering the indoor side of the outdoor rail of the sliding window rail 1 can flow to the outdoor side of the outdoor rail of the sliding window rail 1 from the second drain hole 14, and then the rainwater is discharged through the first drain hole 13, and all rainwater entering the sliding window rail 1 is discharged, and the best drainage effect is achieved.
As a specific implementation manner, it should be further described in this embodiment that the upper end of the rail cover plate 3 is provided with a first rail adhesive tape 6, and the first rail adhesive tape 6 is installed between the outdoor side sliding sash rail 2 and the rail cover plate 3, more precisely, installed at the upper end of the rail cover plate 3, and then abuts against the outdoor side sliding sash rail 2, so as to ensure the stability of the outdoor side sliding sash rail 2, and at the same time, prevent rainwater from flowing into the room through the channel between the outdoor side sliding sash rail 2 and the rail cover plate 3.
As a specific embodiment, in this embodiment, it should be further explained that the first rail adhesive tape 6 is a semi-open structure. It should be noted that the structure of the first rail adhesive tape 6 is the existing rail adhesive tape, and the first rail adhesive tape 6 located between the outdoor side sliding sash transverse material 2 and the rail cover plate 3 is a semi-open structure, when strong wind exists outside, the wind can be poured into the first rail adhesive tape 6 from the side surface of the sliding sash, and the first rail adhesive tape 6 can be expanded outwards under the influence of the wind and extrude the outdoor side sliding sash transverse material 2 serving as a profile again, so that the sealing effect of the whole window is further enhanced.
As a specific implementation manner, it should be further described in this embodiment that the upper end of the rail cover plate 3 is provided with a second rail adhesive tape 7, and the second rail adhesive tape 7 is installed between the indoor side sliding sash transverse material 4 and the rail cover plate 3, more precisely, installed at the upper end of the rail cover plate 3, and then abuts against the indoor side sliding sash transverse material 4, so as to ensure the stability of the indoor side sliding sash transverse material 4, and prevent rainwater from flowing into the room through the channel between the indoor side sliding sash transverse material 4 and the rail cover plate 3.
As a specific embodiment, in this embodiment, it should be further explained that the second rail rubber strip 7 is a semi-open structure. It should be noted that the structure of the second rail adhesive tape 7 is the existing rail adhesive tape, and the second rail adhesive tape 7 located between the indoor side sliding sash transverse material 4 and the rail cover plate 3 is a semi-open structure, when strong wind exists on the outdoor side, the wind can be poured into the second rail adhesive tape 7 from the side surface of the sliding sash, and the second rail adhesive tape 7 can be expanded outwards under the influence of the wind and extrude the indoor side sliding sash transverse material 4 serving as a profile again, so that the sealing effect of the whole window is further enhanced.
As a specific implementation manner, in this embodiment, it is further described that a first extending portion is disposed on an indoor side of the rail cover plate 3, the first extending portion extends from an outer side of the indoor side sliding sash rail 4 to an inner side of the indoor side sliding sash rail 4, and a third rail adhesive tape 8 is disposed between the inner side of the indoor side sliding sash rail 4 and the first extending portion, more precisely, the third rail adhesive tape 8 is disposed at an end portion of the first extending portion located at an inner side of the indoor side sliding sash rail 4, and abuts against the inner side of the indoor side sliding sash rail 4, and cooperates with the second rail adhesive tape 7 to jointly ensure stability of the indoor side sliding sash rail 4, so as to prevent rainwater from flowing into the indoor through a channel between the indoor side sliding sash rail 4 and the first extending portion.
As a specific embodiment, in this embodiment, it should be further explained that the third track rubber strip 8 is a semi-open structure. It should be noted that the structure of the third rail adhesive tape 8 is the existing rail adhesive tape, and the third rail adhesive tape 8 between the inner side of the indoor side sliding sash transverse material 4 and the first extension portion is a semi-open structure, when strong wind exists on the outdoor side, the wind can be poured into the third rail adhesive tape 8 from the side surface of the sliding sash, and the third rail adhesive tape 8 can be expanded outwards under the influence of the wind and extrude the indoor side sliding sash transverse material 4 serving as a profile again, so that the sealing effect of the whole window is further enhanced.
As a specific embodiment, in this embodiment, it should be further described that the outdoor side of the rail cover plate 3 is provided with a second extending portion, the second extending portion extends from the outer side of the outdoor side sliding sash rail 2 to the inner side of the outdoor side sliding sash rail 2, more precisely, the second extending portion is preferably abutted against the outdoor rail of the sliding sash rail 1 to enhance the stability of the rail cover plate 3 and enhance the sealing property between the outdoor side sliding sash rail 2 and the rail cover plate 3, the lower end of the second extending portion is provided with a third drainage hole 15, and a small amount of rainwater entering from above the outdoor rail of the sliding sash rail 1 is discharged onto the sliding sash rail 1 through the third drainage hole 15, and then the rainwater is discharged by the structure of the sliding sash rail 1.
As a specific implementation manner, it is further described in this embodiment that the lower end of the rail cover plate 3 is provided with a fourth drain hole 16, so that rainwater on the sliding window rail 1 can be discharged to the outdoor through the fourth drain hole 16, and the rail cover plate 3 is prevented from blocking rainwater from flowing to the outdoor, the lower end of the first extension portion is provided with a fifth drain hole 17, and then a small amount of rainwater which enters the indoor side of the rail cover plate 3 through sputtering from the outdoor side of the rail cover plate 3 is discharged to the sliding window rail 1 through the fifth drain hole 17, and then the rainwater is discharged by using the structure of the sliding window rail 1.
Finally, it should be noted that: the above description is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.
Claims (10)
1. A sliding window rail sealing and drainage structure comprises a sliding window rail (1), an outdoor side sliding sash transverse material (2), an indoor side sliding sash transverse material (4), an outdoor side sliding sash hooked rabbet (9) and an indoor side sliding sash hooked rabbet (10) which are combined into a sliding window, wherein the outdoor side sliding sash transverse material (2) is arranged at the outdoor rail of the sliding window rail (1), and the indoor side sliding sash transverse material (4) is arranged at the indoor rail of the sliding window rail (1); the sliding window is characterized in that the height of one side of an indoor track on the upper end surface of the sliding window track (1) in the horizontal direction is higher than that of one side of an outdoor track in the horizontal direction; a track cover plate (3) is arranged at a channel between an outdoor track and an indoor track of the sliding window track (1), the upper part of the track cover plate (3) is connected between an outdoor side sliding sash transverse material (2) and an indoor side sliding sash transverse material (4) and used for preventing rainwater from entering the indoor side from the outdoor side through the track cover plate (3) and discharging the rainwater entering the indoor side to the outdoor side through the track cover plate (3);
a wind stop block (5) is filled between the outdoor side sliding sash hooked rabbet (9) and the indoor side sliding sash hooked rabbet (10) and used for preventing water flow from flowing into the indoor space through a gap between the outdoor side sliding sash hooked rabbet (9) and the indoor side sliding sash hooked rabbet (10); a first hooked rabbet rubber strip (11) and a second hooked rabbet rubber strip (12) are respectively arranged between an outdoor side sliding sash hooked rabbet (9) and an indoor side sliding sash hooked rabbet (10) on two sides of the wind stop block (5) and used for preventing lateral rainwater from flowing into the indoor space through a gap between the outdoor side sliding sash hooked rabbet (9) and the indoor side sliding sash hooked rabbet (10).
2. Sliding window track sealing and drainage structure according to claim 1, characterised in that a first drainage hole (13) is provided at the side edge of the outdoor side of the sliding window track (1); and a second drain hole (14) is formed in the outdoor rail of the sliding window rail (1).
3. The sliding window track sealing and drainage structure as claimed in claim 1, wherein the upper end of the track cover plate (3) is provided with a first track rubber strip (6), and the first track rubber strip (6) is installed between the outdoor side sliding sash cross member (2) and the track cover plate (3) and used for preventing rainwater from flowing into the indoor space through a channel between the outdoor side sliding sash cross member (2) and the track cover plate (3).
4. Sliding window rail sealing and drainage arrangement according to claim 3, characterized in that the first rail strip (6) is a semi-open structure.
5. The sliding window rail sealing and drainage structure according to claim 1, wherein a second rail rubber strip (7) is arranged at the upper end of the rail cover plate (3), and the second rail rubber strip (7) is arranged between the indoor side sliding sash cross member (4) and the rail cover plate (3) and used for preventing rainwater from flowing into the indoor through a channel between the indoor side sliding sash cross member (4) and the rail cover plate (3) upwards.
6. Sliding window rail sealing and drainage arrangement according to claim 5, characterized in that the second rail strip (7) is a semi-open structure.
7. The sliding window rail sealing and drainage structure according to claim 1, wherein a first extension portion is provided at an indoor side of the rail cover plate (3), the first extension portion extends from an outer side of the indoor side sliding sash rail (4) to an inner side of the indoor side sliding sash rail (4), and a third rail adhesive tape (8) is installed between the inner side of the indoor side sliding sash rail (4) and the first extension portion, for preventing rainwater from flowing into the indoor through a passage between the indoor side sliding sash rail (4) and the first extension portion.
8. Sliding window track sealing and drainage arrangement according to claim 7, characterised in that the third track strip (8) is a semi-open structure.
9. Sliding window rail sealing and drainage structure according to claim 7, characterized in that the outdoor side of the rail cover plate (3) is provided with a second extension part, the second extension part extends from the outside of the outdoor side sliding sash cross member (2) to the inside of the outdoor side sliding sash cross member (2), and the lower end of the second extension part is provided with a third drainage hole (15).
10. Sliding window track sealing and drainage arrangement according to any of claims 7-9, characterised in that the lower end of the track cover plate (3) is provided with a fourth drainage hole (16) and the lower end of the first extension is provided with a fifth drainage hole (17).
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202121790218.3U CN216277588U (en) | 2021-08-02 | 2021-08-02 | Sliding window rail sealing and drainage structure |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202121790218.3U CN216277588U (en) | 2021-08-02 | 2021-08-02 | Sliding window rail sealing and drainage structure |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN216277588U true CN216277588U (en) | 2022-04-12 |
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Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN202121790218.3U Active CN216277588U (en) | 2021-08-02 | 2021-08-02 | Sliding window rail sealing and drainage structure |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN216277588U (en) |
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2021
- 2021-08-02 CN CN202121790218.3U patent/CN216277588U/en active Active
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