CN218347280U - Hidden drainage structures of austral window, sliding sash - Google Patents

Abstract

The utility model relates to a hidden drainage structures of austral window, sliding sash, including first underframe frame and second underframe frame and the screen window installation frame and the glass installation frame that are located first underframe frame, second underframe frame top respectively, still include the backup pad that is used for connecting first underframe frame and second underframe frame top, a plurality of set up in the first drainage hole of glass installation frame inside wall and locate the partition panel inside the second underframe frame, form the drainage channel between the inside wall and the interior bottom of partition panel and second underframe frame, water inlet and apopore have been seted up respectively to the water inlet end and the drainage end that are located the drainage channel on the second underframe frame; and a collecting component for draining water is arranged at the top of the supporting plate. The utility model discloses a first wash port, inlet opening and drainage channel can discharge fast and splash the inside rainwater of glass installation frame for the rainwater can not be accumulated in the glass installation frame is inside, also can avoid the rainwater to scatter to indoor.

Description

Hidden drainage structures of austral window, sliding sash

Technical Field

The utility model belongs to the technical field of the austral window, sliding sash, concretely relates to hidden drainage structures of austral window, sliding sash.

Background

The sliding window is a window type widely used in modern building industry, has the advantage of not occupying indoor space, is concise and elegant in appearance, good in sealing performance and flexible to open, can enhance the indoor lighting effect by being matched with large glass blocks, and is gradually accepted and loved by consumers.

In the prior art, the bottom rail of the sliding window is composed of a first bottom frame and a second bottom frame which are parallel to each other and the bottoms of which are located on the same horizontal plane, a screen window installation frame is arranged at the top of the first bottom frame, a glass installation frame is arranged at the top of the second bottom frame, the glass installation frame is located on one side of the outdoor side, and the screen window installation frame is located on one side of the indoor side.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a hidden drainage structures of austral window, sliding sash simple structure, reasonable in design just for solving above-mentioned problem.

The utility model discloses a following technical scheme realizes above-mentioned purpose:

a hidden drainage structure of a sliding window comprises a first bottom frame, a second bottom frame, a screen window installation frame and a glass installation frame, wherein the screen window installation frame and the glass installation frame are respectively positioned above the first bottom frame and the second bottom frame;

the supporting plate is in a slope type, and a collecting assembly used for draining water is arranged at the top of the supporting plate.

As the utility model discloses a further optimization scheme, the third wash port of seting up at the support frame inside wall is seted up to the support frame, a plurality of collecting assembly including locating the backup pad top and set up at the water catch bowl of support frame up end, a plurality of at the second wash port of support frame lateral wall and a plurality of.

As the utility model discloses a further optimization scheme, the support frame up end is the downhill path formula towards the direction of glass installation frame, the highest face that the support frame up end is close to screen window installation frame one side flushes with screen window installation frame top, the lowest face that the support frame up end is close to glass installation frame one side is less than glass installation frame top.

As the utility model discloses a further optimization scheme, all leave the passageway between screen window installation frame and the support frame and between glass installation frame and the support frame.

As a further optimization scheme of the utility model, the concave domatic water-retaining has been seted up to the top of the water catch bowl of support frame up end highest position department.

As the utility model discloses a further optimization scheme, the relative one side of first underframe frame and second underframe frame all is equipped with a plurality of support bar, through the thermal-insulated strip of support bar joint between first underframe frame and the second underframe frame.

The beneficial effects of the utility model reside in that:

1) The utility model can rapidly discharge rainwater splashed into the glass mounting frame through the first drain hole, the water inlet hole and the drain channel, so that rainwater cannot accumulate in the glass mounting frame, and the rainwater can be prevented from spreading indoors;

2) The utility model discloses a collect the rainwater that the subassembly was collected splashes to the rainwater buffering that will splash is discharged after slowing down, can play the screen window installation frame and shelter from the guard action, reduces and splashes the inside rainfall volume of screen window installation frame, further avoids the rainwater to spread to indoor.

Drawings

Fig. 1 is a side view of the overall structure of the present invention.

In the figure: 1. a first bottom frame; 2. a second bottom frame; 3. a screen window mounting frame; 4. a glass mounting frame; 5. a supporting strip; 6. a heat insulating strip; 7. a support plate; 8. a support frame; 9. a first drain hole; 10. a water inlet hole; 11. a water collection hole; 12. a water retaining concave slope surface; 13. a second drain hole; 14. a water outlet hole; 15. a partition panel; 16. a drainage channel; 17. and a third drain hole.

Detailed Description

The present application will now be described in further detail with reference to the drawings, it should be noted that the following detailed description is given for illustrative purposes only and is not to be construed as limiting the scope of the present application, as those skilled in the art will be able to make numerous insubstantial modifications and adaptations to the present application based on the above disclosure.

As shown in fig. 1, a hidden drainage structure of a sliding window comprises a first bottom frame 1, a second bottom frame 2, a window screen installation frame 3 and a glass installation frame 4 which are respectively located above the first bottom frame 1 and the second bottom frame 2, a support plate 7 for connecting the tops of the first bottom frame 1 and the second bottom frame 2, a plurality of first drainage holes 9 formed in the inner side wall of the glass installation frame 4, and a partition plate 15 located inside the second bottom frame 2, wherein a drainage channel 16 is formed between the partition plate 15 and the inner side wall and the inner bottom of the second bottom frame 2, a water inlet hole 10 and a water outlet hole 14 are respectively formed in a water inlet end and a water outlet end of the drainage channel 16 on the second bottom frame 2, and the bottom of the window screen installation frame 3 is located above the bottom of the glass installation frame 4;

the supporting plate 7 is in a slope type, and a collecting assembly for draining water is arranged at the top of the supporting plate 7.

Note that the screen mounting frame 3 faces the inside of the room and the glass mounting frame 4 faces the outside of the room when the screen is installed.

In this embodiment, collect the subassembly including locating the support frame 8 at backup pad 7 top, the water catch hole 11 at the 8 up end of support frame is seted up to a plurality of, a plurality of sets up the second wash port 13 and a plurality of the third wash port 17 of seting up at the 8 inside walls of support frame at the 8 lateral walls of support frame, the rainwater that splashes is sheltered from to the side that is close to glass installation frame 4 and the 8 up end of support frame through support frame 8, if the rainwater splashes to the 8 up end of support frame just collect the rainwater between backup pad 7 and support frame 8 through water catch hole 11, the rainwater is carried to inside drainage channel 16 after flowing through second wash port 13 and inlet opening 10 in proper order, finally discharge through apopore 14, if the rainwater splashes between support frame 8 and screen window installation frame 3, the rainwater flows through third wash port 17 in proper order, carry to inside drainage channel 16 behind second wash port 13 and the inlet opening 10, finally discharge through apopore 14.

Preferably, the upper end surface of the support frame 8 is in a downhill form facing the glass mounting frame 4, the highest surface of the upper end surface of the support frame 8 close to one side of the screen mounting frame 3 is flush with the top of the screen mounting frame 3, the lowest surface of the upper end surface of the support frame 8 close to one side of the glass mounting frame 4 is lower than the top of the glass mounting frame 4, the support frame 8 is designed in a downhill form, when rainwater splashes onto the support frame 8, a part of the rainwater passes through the water collecting hole 11 and falls between the support plate 7 and the support frame 8, then flows through the second water discharging hole 13 and the water inlet hole 10 in sequence and is conveyed into the water discharging channel 16, and the other part of the rainwater can flow into the channel between the glass mounting frame 4 and the support frame 8 along the downhill form end surface of the support frame 8, then flows through the water inlet hole 10 into the water discharging channel 16, and finally is discharged through the water outlet 14.

Preferably, all leave the passageway between screen window installation frame 3 and the support frame 8 and between glass installation frame 4 and the support frame 8, the passageway between glass installation frame 4 and the support frame 8 is the rainwater circulation of being convenient for, and the passageway between screen window installation frame 3 and the support frame 8 keeps certain distance for between screen window installation frame 3 and the support frame 8, avoids the rainwater to spread into inside screen window installation frame 3.

Preferably, the water retaining concave surface 12 is arranged above the water collecting hole 11 at the highest position of the upper end surface of the support frame 8, when more rainwater splashed to the upper end surface of the support frame 8 is sprayed, the flow rate of the rainwater can be reduced through the water retaining concave surface 12, and the rainwater is prevented from entering the screen window mounting frame 3, so that the rainwater flows along the downhill direction of the upper end surface of the support frame 8.

In this embodiment, first underframe frame 1 and the relative one side of second underframe frame 2 all are equipped with a plurality of support bar 5, through the 5 joint heat insulating strip 6 of support bar between first underframe frame 1 and the second underframe frame 2, support bar 5 is used for fixed heat insulating strip 6, and heat insulating strip 6 is used for thermal-insulated.

The implementation mode specifically comprises the following steps: when the rain-proof screen window installation frame is used, the first bottom frame 1 and the second bottom frame 2 are fixed on the wall surface, when raining, rainwater splashed inside the glass installation frame 4 can be discharged into a channel between the glass installation frame 4 and the support frame 8 through the first water drainage hole 9, the rainwater flows through the water inlet hole 10 and enters the water drainage channel 16, and is finally discharged through the water outlet hole 14, the rainwater splashed on the support frame 8 is dispersed into two parts, one part flows through the water collection hole 11 and enters the space between the support plate 7 and the support frame 8, and then flows through the second water drainage hole 13 and the water inlet hole 10 and enters the water drainage channel 16, and is finally discharged through the water outlet hole 14, the other part flows along the downhill direction of the upper end surface of the support frame 8, so as to fall between the glass installation frame 4 and the support frame 8, and then flows through the water inlet hole 10 and enters the water drainage channel 16, and is finally discharged through the water outlet hole 14, the bottom of the screen window 3 is positioned above the bottom of the glass installation frame 4, the support plate 7 is designed into a slope type, the rain-proof screen window installation frame can conveniently collect rainwater, and can further reduce the rainwater splashed inside the rainwater collected by the rain-proof screen window installation frame, and can further reduce the rainwater splashed water quantity after the rain-proof screen window installation frame 4.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the concept of the present invention, several variations and modifications can be made, which all fall within the scope of the present invention.

Claims (6)

1. The utility model provides a hidden drainage structures of austral window, sliding sash, includes first underframe frame (1) and second underframe frame (2) and is located screen window installation frame (3) and glass installation frame (4) of first underframe frame (1), second underframe frame (2) top respectively, its characterized in that: the glass window screen frame is characterized by further comprising a supporting plate (7) used for connecting the tops of the first bottom frame (1) and the second bottom frame (2), a plurality of first water drainage holes (9) formed in the inner side wall of the glass installation frame (4) and partition plates (15) arranged inside the second bottom frame (2), a water drainage channel (16) is formed between the partition plates (15) and the inner side wall and the inner bottom of the second bottom frame (2), a water inlet hole (10) and a water outlet hole (14) are formed in a water inlet end and a water drainage end of the water drainage channel (16) on the second bottom frame (2), and the bottom of the window screen (3) is located above the bottom of the glass installation frame (4);

the supporting plate (7) is in a slope type, and a collecting assembly used for draining water is arranged at the top of the supporting plate (7).

2. The hidden drainage structure of a sliding window as claimed in claim 1, wherein: the collecting assembly comprises a supporting frame (8) arranged at the top of the supporting plate (7), a plurality of water collecting holes (11) formed in the upper end face of the supporting frame (8), a plurality of second water discharging holes (13) formed in the outer side wall of the supporting frame (8) and a plurality of third water discharging holes (17) formed in the inner side wall of the supporting frame (8).

3. The hidden drainage structure of a sliding window as claimed in claim 2, wherein: the glass screen window is characterized in that the upper end face of the support frame (8) is in a downhill mode towards the glass mounting frame (4), the highest face of the upper end face of the support frame (8) close to one side of the screen window mounting frame (3) is flush with the top of the screen window mounting frame (3), and the lowest face of the upper end face of the support frame (8) close to one side of the glass mounting frame (4) is lower than the top of the glass mounting frame (4).

4. The hidden drainage structure of a sliding window as claimed in claim 2, wherein: and passages are reserved between the screen window mounting frame (3) and the support frame (8) and between the glass mounting frame (4) and the support frame (8).

5. The hidden drainage structure of a sliding window as claimed in claim 2, wherein: a water retaining concave surface (12) is arranged above the water collecting hole (11) at the highest position of the upper end surface of the support frame (8).

6. The hidden drainage structure of a sliding window as claimed in claim 1, wherein: first underframe frame (1) and second underframe frame (2) relative one side all are equipped with a plurality of support bar (5), through support bar (5) joint heat insulating strip (6) between first underframe frame (1) and the second underframe frame (2).

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