CN217176426U - Door and window system of aluminum-plastic composite profile frame structure - Google Patents

Abstract

The application discloses door and window system of compound section bar frame structure of plastic-aluminum relates to door and window technical field, improves the problem at the bottom of present compound door and window of plastic-aluminum life. Including first aluminum alloy ex-trusions, one side of first aluminum alloy ex-trusions is equipped with second aluminum alloy ex-trusions, first aluminum alloy ex-trusions with the symmetry is equipped with the glass board between the second aluminum alloy ex-trusions, this application is through the setting of third aluminum alloy ex-trusions, fourth aluminum alloy ex-trusions and first wash port, make after the ageing back rainwater infiltration of first aluminum alloy ex-trusions of first sealing strip, third aluminum alloy ex-trusions can be with rainwater water conservancy diversion to the top of fourth aluminum alloy ex-trusions, then through the top of first wash port water conservancy diversion to the window frame, then through second wash port and third wash port water conservancy diversion discharge, effectively realize the separation to rainwater and plastics heat insulating strip, thereby reduce the probability that plastics heat insulating strip received rainwater erosion to lead to intensity reduction and damage, and then improved whole door and window's life.

Description

Door and window system of aluminum-plastic composite profile frame structure

Technical Field

The application relates to the technical field of doors and windows, in particular to a door and window system of an aluminum-plastic composite profile frame structure.

Background

The aluminum-plastic doors and windows are aluminum-plastic composite doors and windows, namely bridge-cut-off aluminum doors and windows and aluminum-clad wood doors and windows; the heat-insulating bridge-cut-off aluminum profile and the hollow glass have the functions of energy conservation, sound insulation, noise prevention, dust prevention, water prevention and the like. The heat conduction coefficient K value of the broken bridge aluminum door and window is less than 3W/m 2K, the heat loss is reduced by half compared with that of the common door and window, the heating cost is reduced by about 30%, the sound insulation quantity is more than 29 decibels, and the water tightness and the air tightness are good.

The sealing strips are often fixed between the aluminum-plastic door and window glass and the sectional materials, the sealing strips close to the outdoors are easy to age due to long-term rainwater and solar irradiation, the rainwater is easy to permeate into the sectional materials after aging, and the plastic heat insulation strips inside the sectional materials are corroded by the rainwater for a long time to cause strength reduction, so that the whole door and window is damaged.

SUMMERY OF THE UTILITY MODEL

In order to improve the problem at the bottom of present plastic-aluminum composite door and window life, this application provides a door and window system of plastic-aluminum composite profile frame structure.

The application provides a door and window system of compound section bar frame structure of plastic-aluminum adopts following technical scheme:

a door and window system with an aluminum-plastic composite profile frame structure comprises a first aluminum alloy profile, wherein a second aluminum alloy profile is arranged on one side of the first aluminum alloy profile, glass plates are symmetrically arranged between the first aluminum alloy profile and the second aluminum alloy profile, an isolating strip is arranged between two groups of glass plates, a supporting strip is fixedly connected to the outer side of the isolating strip, a third aluminum alloy profile is fixedly connected to the bottom of the supporting strip, and the third aluminum alloy profile is fixedly connected with the second aluminum alloy profile;

the first aluminum alloy section bar and the second aluminum alloy section bar are respectively clamped with a first sealing strip, the bottom of one side, close to the second aluminum alloy section bar, of the first aluminum alloy section bar is fixedly connected with a fourth aluminum alloy section bar, a plastic heat insulation strip is clamped and fixed between the fourth aluminum alloy section bar and the second aluminum alloy section bar, a first drainage hole is uniformly formed in the fourth aluminum alloy section bar, a window frame is sleeved on the outer side of the first aluminum alloy section bar, a second drainage hole is formed in the inner bottom wall of the window frame, and a third drainage hole is formed in the lower side, away from one side wall of the second aluminum alloy section bar, of the window frame.

Optionally, the third aluminum alloy section is close to the bottom fixedly connected with fixing strip on one side of the first aluminum alloy section, a second sealing strip is arranged on the lower side of the fixing strip in an abutting mode, and the second sealing strip is connected with the top of the fourth aluminum alloy section in a clamping mode.

Optionally, a third sealing strip is clamped on the inner bottom wall of the window frame.

Optionally, a sealing barrier strip matched with the third sealing strip is fixedly connected to the bottom of the fourth aluminum alloy profile.

Optionally, one side of the top of the window frame, which is close to the first aluminum alloy section, is fixedly connected with an outer limiting plate.

Optionally, the bottom wall of the second aluminum alloy profile is fixedly connected with an inner limiting plate.

Optionally, a fourth sealing strip is clamped and fixed to one side, close to the fourth aluminum alloy section, of the inner limiting plate.

Optionally, the bilateral symmetry of support bar is equipped with the blend stop, the blend stop with third aluminum alloy ex-trusions fixed connection.

To sum up, the beneficial effect of this application is as follows:

this application is through third aluminum alloy ex-trusions, the setting of fourth aluminum alloy ex-trusions and first wash port, make after the ageing inside back of first aluminum alloy ex-trusions of rainwater infiltration of first sealing strip, third aluminum alloy ex-trusions can be with rainwater water conservancy diversion to fourth aluminum alloy ex-trusions's top, then through the top of first wash port water conservancy diversion to the window frame, discharge through second wash port and third wash port water conservancy diversion after that, effectively realize the separation to rainwater and the thermal-insulated strip of plastics, thereby reduce the probability that the thermal-insulated strip of plastics leads to intensity reduction and damage by rainwater erosion, and then whole door and window's life has been improved.

Drawings

FIG. 1 is a partial structural cross-sectional view of the present application;

FIG. 2 is an enlarged view of the portion A of FIG. 1;

fig. 3 is an enlarged view of the structure of the portion B in fig. 1 of the present application.

Description of reference numerals: 1. a first aluminum alloy profile; 2. a glass plate; 3. a first seal strip; 4. a spacer bar; 5. a supporting strip; 6. a second aluminum alloy profile; 7. a plastic heat insulating strip; 8. a third aluminum alloy profile; 9. a fourth aluminum alloy profile; 10. blocking strips; 11. an outer limit plate; 12. a second seal strip; 13. a fixing strip; 14. a first drain hole; 15. a window frame; 16. a second drain hole; 17. a third drain hole; 18. a third seal strip; 19. sealing the barrier strip; 20. an inner limiting plate; 21. and a fourth sealing strip.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

Referring to fig. 1, a window and door system with an aluminum-plastic composite profile frame structure, which is an example of a window opened indoors in this embodiment, includes a first aluminum alloy profile 1, a second aluminum alloy profile 6 is disposed on one side of the first aluminum alloy profile 1, glass plates 2 are symmetrically disposed between the first aluminum alloy profile 1 and the second aluminum alloy profile 6, and the first aluminum alloy profile 1 and the glass plates 2 are disposed to support the glass plates 2. Be equipped with parting strip 4 between two sets of glass boards 2, parting strip 4's setting is used for separating spacingly to glass board 2. The outside fixedly connected with support bar 5 of parting bead 4, and 5 both sides of support bar are inconsistent with the glass board 2 of both sides, and the setting of support bar 5 is used for fixing parting bead 4, carries on spacingly to glass board 2 simultaneously.

Referring to fig. 1, the bottom of the supporting bar 5 is fixedly connected with a third aluminum alloy section 8, the third aluminum alloy section 8 is arranged to support the supporting bar 5, and meanwhile, rainwater infiltrated after the first sealing strip 3 is aged is guided. The bilateral symmetry of support bar 5 is equipped with blend stop 10, blend stop 10 and 8 fixed connection of third aluminum alloy ex-trusions, and the setting of blend stop 10 is used for spacing support bar 5 to improve the stability of the installation of support bar 5. Third aluminum alloy ex-trusions 8 and 6 fixed connection of second aluminum alloy ex-trusions, the equal joint in opposite side of first aluminum alloy ex-trusions 1 and second aluminum alloy ex-trusions 6 has first sealing strip 3, and the opposite side of two first sealing strips 3 butt respectively is in two glass board 2 opposite sides, and the setting of first sealing strip 3 is used for sealing up the gap between first aluminum alloy ex-trusions 1 and glass board 2 and first aluminum alloy ex-trusions 1 and second aluminum alloy ex-trusions 6.

Referring to fig. 1-2, a fourth aluminum alloy section 9 is fixedly connected to the bottom of the first aluminum alloy section 1 close to one side of the second aluminum alloy section 6, a plastic heat insulation strip 7 is fixedly connected between the fourth aluminum alloy section 9 and the second aluminum alloy section 6 in a clamping manner, the plastic heat insulation strip 7 is used for connecting and fixing the fourth aluminum alloy section 9 and the second aluminum alloy section 6, and meanwhile, the sound insulation and heat insulation effects are achieved, the fourth aluminum alloy section 9 is used for collecting rainwater guided by the third aluminum alloy section 8, so that the probability that the plastic heat insulation strip 7 is corroded by rainwater is reduced, and the service life of the whole door and window is prolonged. The bottom fixedly connected with fixed strip 13 that third aluminum alloy ex-trusions 8 is close to 1 one side of first aluminum alloy ex-trusions, the downside butt of fixed strip 13 is provided with second sealing strip 12, second sealing strip 12 and fourth aluminum alloy ex-trusions 9's top joint, second sealing strip 12 and fixed strip 13 mutually support and be used for sealing up the gap between fourth aluminum alloy ex-trusions 9 and the fixed strip 13 to reduce the rainwater overflow that fourth aluminum alloy ex-trusions 9 collected to the probability on the thermal-insulated strip 7 of plastics.

Referring to fig. 1-2, first drainage holes 14 are uniformly formed in the fourth aluminum alloy section 9, and the first drainage holes 14 are configured to guide and drain rainwater collected by the fourth aluminum alloy section 9. The outside cover of first aluminum alloy ex-trusions 1 is equipped with window frame 15, and the setting of window frame 15 is used for providing the support to first aluminum alloy ex-trusions 1 and second aluminum alloy ex-trusions 6.

Referring to fig. 1-2, a third sealing strip 18 is fastened to an inner bottom wall of the window frame 15, and the third sealing strip 18 is configured to guide and block rainwater discharged from the first drainage hole 14, so as to reduce the probability of rainwater flowing into a room. The sealed blend stop 19 of the bottom fixedly connected with of fourth aluminum alloy ex-trusions 9 and the sealed blend stop 19 of third sealing strip 18 looks adaptation, the setting of sealed blend stop 19 is used for the contact of third sealing strip 18 when this door and window is closed, and sealed blend stop 19 sets up with the inconsistent one side slope of third sealing strip 18 to seal the gap between fourth aluminum alloy ex-trusions 9 and window frame 15, thereby improve whole door and window's syllable-dividing and thermal-insulated effect.

Referring to fig. 1 to 3, a second drainage hole 16 is formed in an inner bottom wall of the window frame 15, and the second drainage hole 16 is configured to guide water drained from the first drainage hole 14 to an inside of the window frame 15. A third drain hole 17 is formed in the lower side of the side wall of the window frame 15, which is far away from the second aluminum alloy section 6, and the third drain hole 17 is used for guiding and draining rainwater inside the window frame 15. One side fixedly connected with outer limiting plate 11 that the top of window frame 15 is close to first aluminum alloy ex-trusions 1, and the setting of outer limiting plate 11 is spacing with a pair of first aluminum alloy ex-trusions 1. Limiting plate 20 in the diapire fixedly connected with of second aluminum alloy ex-trusions 6, setting up of interior limiting plate 20 is used for spacing second aluminum alloy ex-trusions 6. Interior limiting plate 20 is close to one side joint of fourth aluminum alloy ex-trusions 9 and is fixed with fourth sealing strip 21, and fourth sealing strip 21 and window frame 15 butt, the setting of fourth sealing strip 21 are used for sealing up the gap between third sealing strip 18 and the window frame 15 to further improve whole door and window's syllable-dividing and heat preservation effect.

The implementation principle of the application is as follows:

when the sealing device is used, if the first sealing strip 3 close to the right side of the outdoor side is used for a long time and is aged and loses the sealing effect on the glass plate 2, rainwater can penetrate into the inside of the first aluminum alloy section bar 1 through a gap between the glass plate 2 and the first sealing strip 3, the rainwater can be guided to the top of the fourth aluminum alloy section bar 9 through the third aluminum alloy section bar 8, then the rainwater falls on the inner bottom wall of the window frame 15 through the first drain hole 14, and then the rainwater is guided and discharged through the second drain hole 16 and the third drain hole 17, so that the probability of contact between the plastic heat insulation strip 7 and rainwater is reduced, the probability that the strength of the plastic heat insulation strip 7 is reduced and damaged due to rainwater erosion is reduced, meanwhile, the rainwater can be blocked through the mutual matching of the third sealing strip 18 and the sealing blocking strip 19, and the sound and heat insulation effect of the whole door and window is improved.

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 door and window system of compound section bar frame structure of plastic-aluminum, includes first aluminum alloy ex-trusions (1), its characterized in that: a second aluminum alloy section (6) is arranged on one side of the first aluminum alloy section (1), glass plates (2) are symmetrically arranged between the first aluminum alloy section (1) and the second aluminum alloy section (6), a separation bar (4) is arranged between the two groups of glass plates (2), a support bar (5) is fixedly connected to the outer side of the separation bar (4), a third aluminum alloy section (8) is fixedly connected to the bottom of the support bar (5), and the third aluminum alloy section (8) is fixedly connected with the second aluminum alloy section (6);

the heat insulation window is characterized in that the opposite sides of the first aluminum alloy section (1) and the second aluminum alloy section (6) are respectively clamped with a first sealing strip (3), the bottom of the first aluminum alloy section (1) close to one side of the second aluminum alloy section (6) is fixedly connected with a fourth aluminum alloy section (9), a plastic heat insulation strip (7) is clamped and fixed between the fourth aluminum alloy section (9) and the second aluminum alloy section (6), a first water drainage hole (14) is uniformly formed in the fourth aluminum alloy section (9), a window frame (15) is sleeved on the outer side of the first aluminum alloy section (1), a second water drainage hole (16) is formed in the inner bottom wall of the window frame (15), and a third water drainage hole (17) is formed in the lower side, far away from one side wall of the second aluminum alloy section (6), of the window frame (15).

2. The window and door system of aluminum-plastic composite profile frame structure according to claim 1, wherein: third aluminum alloy ex-trusions (8) are close to bottom fixedly connected with fixed strip (13) of first aluminum alloy ex-trusions (1) one side, the downside butt of fixed strip (13) is provided with second sealing strip (12), second sealing strip (12) with the top joint of fourth aluminum alloy ex-trusions (9).

3. The window and door system of aluminum-plastic composite profile frame structure according to claim 1, wherein: and a third sealing strip (18) is clamped on the inner bottom wall of the window frame (15).

4. The window and door system of aluminum-plastic composite profile frame structure according to claim 3, wherein: the bottom of the fourth aluminum alloy section (9) is fixedly connected with a sealing barrier strip (19) and a sealing barrier strip (19) matched with the third sealing strip (18).

5. The window and door system of aluminum-plastic composite profile frame structure according to claim 1, wherein: and an outer limiting plate (11) is fixedly connected to one side, close to the first aluminum alloy section (1), of the top of the window frame (15).

6. The window and door system of aluminum-plastic composite profile frame structure according to claim 1, wherein: and an inner limiting plate (20) is fixedly connected to the bottom wall of the second aluminum alloy section (6).

7. The window and door system of the aluminum-plastic composite profile frame structure according to claim 6, wherein: and a fourth sealing strip (21) is clamped and fixed at one side of the inner limiting plate (20) close to the fourth aluminum alloy section (9).

8. The window and door system of aluminum-plastic composite profile frame structure according to claim 1, wherein: the bilateral symmetry of support bar (5) is equipped with blend stop (10), blend stop (10) with third aluminum alloy ex-trusions (8) fixed connection.

Images