CN216076913U

CN216076913U - Door and window aluminium alloy of leak protection water

Info

Publication number: CN216076913U
Application number: CN202121868278.2U
Authority: CN
Inventors: 万霄; 谭应辉; 贺思佳
Original assignee: Foshan Norto Metal Co ltd
Current assignee: Foshan Norto Metal Co ltd
Priority date: 2021-08-11
Filing date: 2021-08-11
Publication date: 2022-03-18
Anticipated expiration: 2031-08-11

Abstract

The utility model relates to the field of aluminum profiles and discloses a water leakage-proof door and window aluminum profile which comprises pressing lines, a mullion, a duckbill glue and a window sash, wherein the mullion comprises a water storage groove, a first through hole and a second through hole, the water storage groove is positioned at one end, close to glass, of the mullion, the first through hole is formed in one side, close to the outdoor, of the water storage groove, the first through hole is communicated with the water storage groove, the second through hole is positioned below the first through hole, and the first through hole is communicated with the second through hole; the window sash comprises a third through hole and an inclined part, and an included angle between the inclined part and the horizontal direction is 5-10 degrees, so that accumulated water can flow out of the aluminum profile from the window sash conveniently. Through the cooperation of first through-hole, second through-hole, third through-hole and catch basin for ponding can not remain in the aluminium alloy, can not influence the life of aluminium alloy, can be the very first time with rainwater discharge aluminium alloy when bad weather, glue through setting up the duckbilled and can be with keeping somewhere the empty part for heat preservation portion and intercommunication portion, separate the hot and cold air, ensure that indoor temperature can not too low.

Description

Door and window aluminium alloy of leak protection water

[ technical field ] A method for producing a semiconductor device

The utility model relates to the field of aluminum profiles, in particular to a water leakage-proof door and window aluminum profile.

[ background of the utility model ]

The aluminum profile is often used for manufacturing doors and windows, is popular with manufacturers due to the advantages of safety, difficult damage, easy cleaning and the like, and is more and more applied to families and high-rise buildings, for example, the existing doors and windows generally comprise window frames, mullions and inward-opening window sashes, and are respectively formed by assembling inner aluminum alloy profiles, outer aluminum alloy profiles and heat insulation strips.

However, the aluminum profile of the existing door and window still has the following defects that firstly, accumulated water in the aluminum profile is easy to leak indoors when the window is opened, and secondly, the drainage channel adopts a horizontal notch, so that the accumulated water cannot be smoothly drained out of the window.

[ summary of the utility model ]

The utility model aims to solve the problems and provides a water leakage-proof door and window aluminum profile, which solves the problems that the existing door and window aluminum profile is easy to accumulate water and can not effectively discharge accumulated water.

In order to achieve the purpose, the utility model adopts the following technical scheme:

a water leakage-proof door and window aluminum profile comprises a pressing line, a mullion, a duckbilled glue and a window sash, wherein the pressing line is arranged at the top of the mullion, glass is arranged between the mullion and the pressing line, the window sash is connected below the mullion, a reserved part is arranged between the mullion and the window sash, the duckbilled glue is arranged in the middle of the reserved part, the reserved part is a heat preservation part and a communicating part, the heat preservation part is positioned at one side of the reserved part close to the interior of a room, and the communicating part is positioned at one side of the reserved part close to the exterior of the room;

the mullion comprises a water storage tank, a first through hole and a second through hole, the water storage tank is positioned at one end of the mullion, which is close to the glass, the first through hole is arranged at one side of the water storage tank, which is close to the outdoor side, the first through hole is communicated with the water storage tank, the second through hole is positioned below the first through hole, and the first through hole is communicated with the second through hole;

the casement includes third through-hole and rake, the third through-hole is located the top of casement, just the third through-hole is located the below of second through-hole, the rake is located the below of third through-hole, just the rake is between 5-10 with the contained angle of horizontal direction, and the ponding of being convenient for is followed the casement flows the aluminium alloy.

Preferably, the mullion further comprises a first groove and a second groove, the first groove is formed in the bottom of the mullion, and the second groove extends downwards from one side, close to the interior, of the mullion.

Preferably, the mullion further comprises a first dovetail groove and first heat-insulating glue, wherein every two opposite first dovetail grooves are arranged in the middle of the mullion, the first heat-insulating glue is arranged between the two first dovetail grooves, and a first filler is arranged between the two adjacent first heat-insulating glue.

Preferably, the first heat insulation glue comprises an extension part, the extension part is arranged at the bottom of the first heat insulation glue, and the extension part, the duckbilled glue, the window sash and the mullion are enclosed to form the heat preservation part.

Preferably, the mullion further comprises a third groove, and the third groove extends upwards from one side of the mullion close to the outdoor space.

Preferably, the window sash further comprises a second dovetail groove and second heat insulation glue, the two opposite second dovetail grooves are arranged in the middle of the window sash, the second heat insulation glue is arranged between the two second dovetail grooves, and a second filler is arranged between the two adjacent second heat insulation glue.

Preferably, the window sash further comprises a fourth groove, and the fourth groove extends upwards from one side of the window sash close to the outdoor space.

Preferably, the window frame further comprises a sealant, and the mullion and the window sash are connected through the sealant.

The contribution of the utility model lies in: according to the aluminum profile, through the matching of the first through hole, the second through hole, the third through hole and the water storage tank, accumulated water cannot remain in the aluminum profile, the service life of the aluminum profile cannot be influenced, rainwater can be drained out of the aluminum profile in the first time in severe weather, and the reserved parts can be the heat preservation part and the communication part through the duckbill glue, so that cold air and hot air are separated, and the indoor temperature cannot be too low.

[ description of the drawings ]

FIG. 1 is a schematic structural diagram of one embodiment of the present invention;

FIG. 2 is a side view of a stile of the utility model;

fig. 3 is a schematic view of a window sash according to the present invention;

FIG. 4 is a schematic structural diagram of the pressing line of the present invention;

wherein: the pressing line 10, the mullion 20, the duckbill glue 30, the window sash 40, the sealant 50 and the reserved space 60;

the water storage tank 21, the first through hole 22, the second through hole 23, the first groove 24, the second groove 25, the first dovetail groove 26, the first heat insulation glue 27, the first filler 271, the extension portion 28, the third groove 29, the third through hole 41, the inclined portion 42, the second dovetail groove 43, the second heat insulation glue 44, the second filler 441, the fourth groove 45, the heat preservation portion 61, and the communication portion 62.

[ detailed description ] embodiments

The following examples are further illustrative and supplementary to the present invention and do not limit the present invention in any way.

As shown in fig. 1-4, a water leakage-proof door and window aluminum profile comprises a pressing line 10, a mullion 20, duckbilled glue 30 and a window sash 40, wherein the pressing line 10 is arranged at the top of the mullion 20, glass is arranged between the mullion 20 and the pressing line 10, the window sash 40 is connected below the mullion 20, a hollow part 60 is arranged between the mullion 20 and the window sash 40, the duckbilled glue 30 is arranged in the middle of the hollow part 60, the hollow part 60 is divided into a heat preservation part 61 and a communication part 62, the heat preservation part 61 is positioned at one indoor side of the hollow part 60, and the communication part 62 is positioned at one outdoor side of the hollow part 60;

the mullion 20 comprises a water storage tank 21, a first through hole 22 and a second through hole 23, the water storage tank 21 is positioned at one end, close to the glass, of the mullion 20, the first through hole 22 is arranged on one side, close to the outdoor, of the water storage tank 21, the first through hole 22 is communicated with the water storage tank 21, the second through hole 23 is positioned below the first through hole 22, and the first through hole 22 is communicated with the second through hole 23;

the window sash 40 comprises a third through hole 41 and an inclined part 42, the third through hole 41 is arranged at the top of the window sash 40, the third through hole 41 is positioned below the second through hole 23, the inclined part 42 is arranged below the third through hole 41, and an included angle between the inclined part 42 and the horizontal direction is 5-10 degrees, so that accumulated water can flow out of the aluminum profile from the window sash 40 conveniently.

Glass is arranged between the pressing line 10 and the mullion 20, the glass is clamped between the two through rubber to play a role in fixing the glass, but as the sealing effect of the rubber can generate thermal expansion and cold contraction along with the aging and the change of the external temperature, rainwater can flow into the aluminum profile from the gap between the mullion 20 and the glass in rainy days, if the rainwater is not timely treated, the aluminum profile can be corroded and rusted, the aluminum profile is damaged from the inside, and the service life of the aluminum profile is greatly reduced, so the utility model arranges the water storage groove 21 on the top of the mullion 20, the water storage groove 21 can receive the water flowing in from the middle mullion 20 and the glass, the water is led out of the mullion 20 through the first through hole 22, then the water flows into the second through hole 23 below and then continuously flows into the hollow part 60 from the sealant 50, particularly flows into the communicating part 62, and then enters the third through hole 41 and then enters the inclined part 42, because the inclined part 42 has a certain angle, the best is 5-10 degrees, the water flow can flow downwards along the inclined part 42 and finally flows out of the aluminum profile, so that no water is left in the aluminum profile, and the service life of the aluminum profile is not influenced.

The hollow portion 60 is divided into a heat preservation portion 61 and a communicating portion 62, the heat preservation portion 61 is located the hollow portion 60 is close to one side of the room, the communicating portion 62 is located the hollow portion 60 is close to one side of the room, the heat preservation portion 61 is formed by the extending portion 28, the duckbill glue 30, the window sash 40 and the mullion 20 in a surrounding mode, the heat preservation portion 61 is indoor due to the fact that the duckbill glue 30 is close to the room, the communicating portion 62 can be isolated through the duckbill glue 30, and cold air in the communicating portion 62 (communicated with cold air in the room) is prevented from entering the room.

According to the aluminum profile, through the matching of the first through hole 22, the second through hole 23, the third through hole 41 and the water storage tank 21, accumulated water cannot remain in the aluminum profile, the service life of the aluminum profile cannot be influenced, rainwater can be drained out of the aluminum profile in the first time in severe weather, the reserved part 60 can be divided into the heat preservation part 61 and the communication part 62 through the duckbill glue 30, cold air and hot air are separated, and the indoor temperature cannot be too low.

In a further description, the mullion 20 further includes a first groove 24 and a second groove 25, the first groove 24 is disposed at the bottom of the mullion 20, and the second groove 25 is extended downward from the side of the mullion 20 close to the room.

First groove 24 is used for inserting the installation guide rail so that the whole aluminum profile can move, and second groove 25 is used for installing sealant 50, and mullion 20 is connected with window sash 40 through installing sealant 50.

Further, the mullion 20 further includes a first dovetail groove 26 and a first heat insulation glue 27, two pairs of the first dovetail grooves 26 opposite to each other are disposed in the middle of the mullion 20, the first heat insulation glue 27 is disposed between two first dovetail grooves 26, and a first filler 271 is disposed between two adjacent first heat insulation glues 27.

The first heat insulation glue 27 is arranged in the first dovetail groove 26, and the first heat insulation glue 27 can well isolate the glass from cold air and prevent the cold air from entering the heat preservation part 61. The first filler 271 further plays a role in heat insulation, and the first filler 271 can be made of heat-insulating materials such as nylon gauze.

In a further illustration, the first thermal insulation glue 27 includes an extension portion 28, the extension portion 28 is disposed at the bottom of the first thermal insulation glue 27, and the extension portion 28, the duckbill glue 30, the window sash 40 and the mullion 20 enclose the thermal insulation portion 61.

In a further description, the mullion 20 further comprises a third groove 29, and the side of the mullion 20 close to the outdoor is extended upwards to form the third groove 29.

The third groove 29 is used for installing rubber, so that the rubber can clamp the glass, and the glass is prevented from falling off or being unstably clamped.

In a further description, the window sash 40 further includes a second dovetail groove 43 and a second heat insulation glue 44, two pairs of opposite second dovetail grooves 43 are disposed in the middle of the window sash 40, the second heat insulation glue 44 is disposed between two second dovetail grooves 43, and a second filler 441 is disposed between two adjacent second heat insulation glues 44.

The second heat insulation glue 44 is arranged in the second dovetail groove 43, and the second heat insulation glue 44 can well isolate the outside cold air and prevent the cold air from entering the heat preservation part 61. The second filler 441 has a heat insulation effect in a second step, and the second filler 441 can be made of heat insulation materials such as nylon gauze.

In a further description, the window sash 40 further includes a fourth groove 45, and the side of the window sash 40 close to the outdoor space is extended upward to form the fourth groove 45.

Fourth recess 45 is used for connecting mullion 20, is provided with sealed glue 50 in fourth recess 45, can play the effect of connecting mullion 20.

Further illustratively, a sealant 50 is included, and mullion 20 and sash 40 are joined by sealant 50.

Although the present invention has been described with reference to the above embodiments, the scope of the present invention is not limited thereto, and modifications, substitutions and the like of the above members are intended to fall within the scope of the claims of the present invention without departing from the spirit of the present invention.

Claims

1. The utility model provides a door and window aluminium alloy of leak protection water which characterized in that: the hot-melt adhesive comprises a pressing line, a middle support, a duckbill adhesive and a window sash, wherein the pressing line is arranged at the top of the middle support, glass is arranged between the middle support and the pressing line, the window sash is connected below the middle support, a reserved part is arranged between the middle support and the window sash, the duckbill adhesive is arranged in the middle of the reserved part, the reserved part is a heat preservation part and a communicating part, the heat preservation part is positioned at one side of the reserved part close to the indoor space, and the communicating part is positioned at one side of the reserved part close to the outdoor space;

2. The water leakage preventing aluminum profile for doors and windows according to claim 1, which is characterized in that: the middle support further comprises a first groove and a second groove, the first groove is formed in the bottom of the middle support, and the second groove extends downwards from one side, close to the interior, of the middle support.

3. The water leakage preventing aluminum profile for doors and windows according to claim 1, which is characterized in that: the middle support further comprises a first dovetail groove and first heat-insulating glue, wherein every two opposite first dovetail grooves are formed in the middle of the middle support, the first dovetail grooves are formed between the first dovetail grooves, the first heat-insulating glue is arranged between the first dovetail grooves, and the first heat-insulating glue is arranged between the first dovetail grooves and adjacent to the first heat-insulating glue.

4. A leak protection water door and window aluminium alloy of claim 3, characterized in that: the first heat insulation glue comprises an extension part, the extension part is arranged at the bottom of the first heat insulation glue, and the extension part, the duckbilled glue, the window sash and the mullion are enclosed to form the heat preservation part.

5. The water leakage preventing aluminum profile for doors and windows according to claim 1, which is characterized in that: the mullion further comprises a third groove, and the third groove is formed in one side, close to the outdoor, of the mullion in an upward extending mode.

6. The water leakage preventing aluminum profile for doors and windows according to claim 1, which is characterized in that: the window sash further comprises a second dovetail groove and second heat insulation glue, the two opposite second dovetail grooves are arranged in the middle of the window sash, the second heat insulation glue is arranged between the two second dovetail grooves, and a second filler is arranged between the two adjacent second heat insulation glue.

7. The water leakage preventing aluminum profile for doors and windows according to claim 1, which is characterized in that: the window sash further comprises a fourth groove, and the fourth groove extends upwards from one side of the window sash close to the outdoor space.

8. The water leakage preventing aluminum profile for doors and windows according to claim 1, which is characterized in that: the window frame further comprises a sealant, and the mullion and the window sash are connected through the sealant.