CN219774015U - Outward opening type aluminum alloy door and window - Google Patents

Abstract

The utility model relates to an aluminum alloy door and window, in particular to an outward opening aluminum alloy door and window, which comprises: a frame; the middle column is arranged on the frame; the conversion frame is arranged on the side frame and the center post; the window sashes are hinged on the frame and are positioned on one side of the outdoor; the first sealing strip is arranged on the window sash and is used for being pressed on the conversion frame; the second sealing strip is provided with a second pressing strip and a second pressing block, the second pressing strip and the second pressing block are arranged on the second sealing strip, and the second sealing strip is arranged on the conversion frame and is used for being pressed on the window sash. The outward opening type aluminum alloy door and window provided by the utility model has the advantages that more than three seals are realized through the first sealing strip and the second sealing strip, the deformation space of the first sealing strip and the second sealing strip is large, the integral sealing effect is good, and the sealing reliability is high.

Description

Outward opening type aluminum alloy door and window

Technical Field

The utility model relates to an aluminum alloy door and window, in particular to an outward opening aluminum alloy door and window.

Background

The bridge-cut aluminum is also called a heat-insulating bridge-cut aluminum section, a heat-insulating aluminum alloy section, a bridge-cut aluminum alloy, a cold-heat-cut bridge section and a bridge-cut aluminum-plastic composite section. It has more excellent performance than common aluminum alloy section. The bridge-cut-off aluminum is characterized in that aluminum alloy is cut off from the middle, the cut-off aluminum alloy is connected into a whole by adopting hard plastic, and the heat conduction of the plastic is obviously poorer than that of metal, so that heat cannot easily pass through the whole material, and the heat insulation performance of the material is improved. The bridge-cut-off aluminum system door and window is widely applied to buildings due to the excellent sound and heat insulation effect. The heat-insulating outward-opening window aluminum profile with attractive appearance as disclosed in CN 218177021U comprises a window frame and a window sash, wherein the window frame comprises an inner window frame plate and an outer window frame plate, the inner window frame plate is connected with the outer window frame plate through a first heat insulation strip, and the outer window frame plate is internally provided with a first glass mounting groove; the window sash comprises an inner window sash plate and an outer window sash plate, the inner window sash plate is connected with the outer window sash plate through a second heat insulation strip, a second glass mounting groove is inwards formed in the outer window sash plate, far away from the window frame end, and the notch of the first glass mounting groove and the notch of the second glass mounting groove are located in the same plane. The sealing is mainly carried out through two e-shaped sealing strips on the window frame and the window sash, and the air leakage phenomenon occurs when the window is used because the sealing area of the sealing strips is smaller and the whole sealing effect is poorer because the sealing length is longer.

Disclosure of Invention

In order to solve the problems, the utility model provides an outward opening type aluminum alloy door and window which can be subjected to multiple sealing and has good sealing effect, and the concrete technical scheme is as follows:

an outward opening aluminum alloy door and window, comprising: a frame; the middle column is arranged on the frame; the conversion frame is arranged on the side frame and the center post; the window sashes are hinged on the frame and are positioned on one side of the outdoor; the first sealing strip is arranged on the window sash and is used for being pressed on the conversion frame; the second sealing strip is arranged on the conversion frame, a second pressing strip and a second pressing block are arranged on the second sealing strip, and the second pressing strip and the second pressing block are used for being pressed on the window sashes.

By adopting the technical scheme, the first sealing strip and the second sealing strip realize triple sealing, and form a step shape in sequence, so that the sealing performance is effectively improved, and the air leakage is reduced.

Preferably, the first sealing strip includes: the first pressing strip is L-shaped and is arranged at one end of the first sealing strip; and the first supporting strip is arranged at the other end of the first sealing strip and is connected with the first pressing strip.

Through adopting above-mentioned technical scheme, first support bar is used for supporting first layering to make first layering can paste tightly on the conversion frame, make current linear seal form face seal, improved sealed effect.

Further, the first support bar is L-shaped, one end of the first support bar is arranged at the end part of the first sealing strip, and the other end of the first support bar is arranged at the middle part of the first pressing strip.

Through adopting above-mentioned technical scheme, the first support bar of L shape is out of shape easily, and elasticity is good, and the atress performance is better simultaneously, can effectively improve life. The first support bar is arranged in the middle of the first pressing bar, so that the end part of the first pressing bar is easy to deform, a first seal can be formed, and then a second seal is formed through the first support bar, so that multiple seals are realized.

Further, the method further comprises the following steps: the first side layering, first side layering sets up the corner of first layering.

By adopting the technical scheme, the first side pressing strip provides a third seal, so that the sealing effect is ensured.

The first pressing strip is obliquely arranged on the surface opposite to the conversion frame.

Through adopting above-mentioned technical scheme, the elasticity of first layering can be increased in the slope setting of first layering, can increase the deflection of first layering simultaneously, and then improves sealed effect.

Preferably, a shrinkage groove is arranged between the second pressing strip and the second sealing strip.

By adopting the technical scheme, the shrinkage groove can reduce extrusion of the pressing strip material during sealing, lighten fatigue and prolong the service life of the second pressing strip.

Preferably, the second pressing block is provided with a second elastic hole.

Through adopting above-mentioned technical scheme, the elasticity of second briquetting can be increased to the second elasticity hole, improves the leakproofness.

Further, a second side pressing strip is arranged on the second pressing block.

Through adopting above-mentioned technical scheme, the second side pressure strip is used for increasing sealing area, improves the leakproofness.

Preferably, the second sealing strip is provided with a plurality of first elastic holes, and the second pressing strip and the second pressing block are both positioned at one side of the first elastic holes.

Through adopting above-mentioned technical scheme, first elastic hole is used for increasing the elasticity of second layering and second briquetting, improves the leakproofness to make the switching window convenient, laborsaving.

Preferably, the screen window is hinged on the frame and located on one side of the room, and the screen window is arranged opposite to the conversion frame.

By adopting the technical scheme, the hinged screen window is convenient to use.

Compared with the prior art, the utility model has the following beneficial effects:

the outward opening type aluminum alloy door and window provided by the utility model has the advantages that more than three seals are realized through the first sealing strip and the second sealing strip, the deformation space of the first sealing strip and the second sealing strip is large, the integral sealing effect is good, and the sealing reliability is high.

The screen window can be conveniently installed, and meanwhile, the screen window is inwards opened, and the window sash is outwards opened, so that the use is convenient.

Drawings

FIG. 1 is a schematic view of an outward opening aluminum alloy door and window;

FIG. 2 is a cross-sectional view taken along line A-A of FIG. 1;

FIG. 3 is a cross-sectional view taken along line B-B of FIG. 1;

FIG. 4 is a cross-sectional view of a bezel;

FIG. 5 is a cross-sectional view of the center post and switch frame assembly;

FIG. 6 is a cross-sectional view of the center post;

FIG. 7 is a cross-sectional view of a transition frame;

fig. 8 is a cross-sectional view of a window sash;

FIG. 9 is a schematic view of the structure of the first sealing strip;

FIG. 10 is a schematic view of the structure of the second sealing strip;

fig. 11 is a schematic structural view of a screen.

Detailed Description

The utility model will now be further described with reference to the accompanying drawings.

As shown in fig. 1 to 11, an outward opening type aluminum alloy door and window comprises a frame 1, a center pillar 2, a conversion frame 3, a window sash 5, a first sealing strip 6, a second sealing strip 4 and a screen window 7. The center post 2 is arranged on the frame 1; the conversion frame 3 is arranged on the side frame 1 and the center post 2; the window sash 5 is hinged on the frame 1 and is positioned at one side of the outdoor; the first sealing strip 6 is arranged on the window sash 5 and is used for being pressed on the conversion frame 3; the second sealing strip 4 is provided with a second pressing strip 41 and a second pressing block 42, the second pressing strip 41 and the second pressing block 42, and the second sealing strip 4 is arranged on the conversion frame 3 and is used for pressing on the window sash 5. The first sealing strip 6 and the second sealing strip 4 realize triple sealing, and are sequentially stepped, so that the sealing performance is effectively improved, and the air leakage is reduced. The screen window 7 is hinged on the frame 1 and is positioned on one side in a room, the screen window 7 is also arranged opposite to the conversion frame 3, and the hinged screen window 7 is convenient to use.

As shown in fig. 9, the first sealing strip 6 includes a first bead 61, a first support bar 62, and a first side bead 63. The first pressing strip 61 is L-shaped, the end part of the first pressing strip 61 is arranged at one end of the first sealing strip 6, the surface, opposite to the conversion frame 3, of the first pressing strip 61 is obliquely arranged, the elasticity of the first pressing strip 61 can be increased, the deformation of the first pressing strip 61 can be increased, and the sealing effect is improved. The first supporting bar 62 is disposed at the other end of the first sealing strip 6 and connected with the first pressing strip 61, and the first supporting bar 62 is used for supporting the first pressing strip 61, so that the first pressing strip 61 can be tightly attached to the conversion frame 3, the existing linear seal is formed into a face seal, and the sealing effect is improved. The first supporting bar 62 is L-shaped, one end of which is disposed at the end of the first sealing strip 6, and the other end of which is disposed at the middle of the first pressing bar 61. The L-shaped first support bar 62 is easy to deform, good in elasticity, good in stress performance and capable of effectively prolonging the service life. The first support bar 62 is arranged in the middle of the first pressing bar 61, so that the end part of the first pressing bar 61 is easy to deform, a first seal can be formed, and then a second seal is formed through the first support bar 62, so that multiple seals are realized. The first side bead 63 is disposed at a corner of the first bead 61, and the first side bead 63 provides a third seal, ensuring a sealing effect.

As shown in fig. 10, a shrinkage groove 43 is arranged between the second pressing strip 41 and the second sealing strip 4, and the shrinkage groove 43 can reduce the extrusion of the pressing strip material during sealing, lighten fatigue and prolong the service life of the second pressing strip 41. The second presser 42 is provided with a second elastic hole 44. The second elastic hole 44 can increase the elasticity of the second pressing block 42, improving the sealability. The end of the second pressing block 42 is provided with a second side pressing bar 45, and the second side pressing bar 45 is used for increasing the sealing area and improving the sealing performance.

Wherein, the second sealing strip 4 is provided with a plurality of first elastic holes 46, and the second pressing strip 41 and the second pressing block 42 are positioned at one side of the first elastic holes 46. The first elastic hole 46 is used for increasing the elasticity of the second pressing strip 41 and the second pressing block 42, improving the sealing performance and facilitating and saving labor for opening and closing the window.

One side of the second sealing strip 4 is also provided with a second side buckle 47, and two ends of the bottom of the second sealing strip 4 are respectively provided with a second outer side buckle 48 and a second inner side buckle 49.

As shown in fig. 4, the frame 1 comprises a first outer aluminum profile 11, a first heat insulating bridge 13, a first inner aluminum profile 12 and a first movable bead 14. The first outer aluminum profile 11 is connected with the first inner aluminum profile 12 through a first heat insulation bridge 13, and the first heat insulation bridge 13 is symmetrically provided with two. The first outside aluminum profile 11 is located outdoor one side, is equipped with first line ball 111 on the first outside aluminum profile 11, and first line ball 111 compresses tightly in one side of first cavity glass 17 through outside sealing strip 15. The first movable pressing strip 14 is detachably arranged on the first inner aluminum section 12, and the first movable pressing strip 14 is pressed on the other side of the first hollow glass 17 through the inner sealing strip 16. The first movable bead 14 and the first pressing line 111 realize the fixation of the first hollow glass 17.

As shown in fig. 5, the center pillar 2 includes a second outer aluminum profile 21, a first heat insulating bridge 13, a first inner aluminum profile 12, and a first movable bead 14. The second outside aluminum profile 21 is connected with the first inside aluminum profile 12 through the first heat insulating bridge 13, and the first heat insulating bridge 13 is symmetrically provided with two. The second outside aluminum profile 21 is located outdoor one side, is equipped with second outside line ball 211 and second internal line ball 212 on the second outside aluminum profile 21, and second outside line ball 211 compresses tightly one side at first cavity glass 17 through outside sealing strip 15. The first movable pressing strip 14 is detachably arranged on the first inner aluminum section 12, and the first movable pressing strip 14 is pressed on the other side of the first hollow glass 17 through the inner sealing strip 16. The first movable bead 14 and the second external pressing line 211 realize the fixation of the first hollow glass 17. The first inner aluminum profile 12 is of a symmetrical structure, and the first movable pressing strips 14 can be arranged on two sides of the first inner aluminum profile 12, so that the types of parts of the aluminum profile are reduced, and the universality is improved.

As shown in fig. 7, the conversion frame 3 includes a conversion outer aluminum profile 31, a first heat insulating bridge 13, and a conversion inner aluminum profile 32. The conversion outer side aluminum profile 31 is connected with the conversion inner side aluminum profile 32 through the first heat insulating bridge 13, and the first heat insulating bridge 13 is symmetrically provided with two. The transition outer aluminum profile 31 abuts against the second inner pressing line 212 and forms a step shape with the second inner pressing line 212. The conversion outer side aluminum profile 31 is provided with a second front fixing groove 311, and a second outer side buckle 48 of the second sealing strip 4 is arranged on the second front fixing groove 311. The conversion pressing strip 321 is arranged on the conversion inner side aluminum profile 32, the conversion pressing strip 321 is provided with a second rear fixing groove 322 and a second fixing groove 323, and a second inner side buckle 49 and a second side buckle 47 of the second sealing strip 4 are respectively arranged on the second rear fixing groove 322 and the second fixing groove 323.

The frame 1, the middle column 2 and the conversion frame 3 all adopt the same first heat insulation bridge 13, so that parts are greatly reduced, the cost is reduced, and the universality of the parts is improved.

As shown in fig. 8, the window sash 5 includes an outer window aluminum profile 51, a second heat insulating bridge 52, an inner window aluminum profile 53, and a second movable bead 54. The inner side of the outer window aluminum profile 51 is connected with the inner side of the inner window aluminum profile 53 through the second heat insulation bridges 52, and the second heat insulation bridges 52 are symmetrically arranged in two. The two sides of the outer window aluminum profile 51 are respectively provided with a third outer pressing line 511 and a third inner pressing line 512, the third outer pressing line 511 is provided with a first sealing strip 6, the third inner pressing line 512 is pressed on the window glass 55 through the outer sealing strip 15, and the window glass 55 is hollow glass. The second movable bead 54 is detachably mounted on the inner window aluminum section 53, and the second movable bead 54 is pressed against the other side of the window glass 55 through the inner sealing strip 16. The second movable bead 54 and the third inner pressing line 512 achieve the fixation of the window glass 55. The outer window aluminum profile 51 is provided with a second sealing flange 513, the second sealing flange 513 is arranged opposite to the second pressing strip 41, and the second pressing strip 41 is pressed on the second sealing flange 513. The inner window aluminum profile 53 is provided with a second sealing baffle 531, the second sealing baffle 531 is opposite to the second pressing block 42, and the second pressing block 42 is pressed on the second sealing baffle 531.

As shown in fig. 11, the screen window 7 includes a screen 74, a fixing frame 71, a third pressing strip 72 and a third pressing strip 73, a third fixing groove 712 is formed in the fixing frame 71, the periphery of the screen 74 is inserted into the third fixing groove 712, the third pressing strip 72 is detachably mounted on the fixing frame 71 and is located at one side of the third fixing groove 712, and the third pressing strip 73 is made of an elastic material and is located between the third pressing strip 72 and the screen 74 and used for pressing the screen 74.

The fixed frame 71 is further provided with a fourth pressing strip 711, the fourth pressing strip 711 is provided with a first sealing strip 6, the first sealing strip 6 is pressed on the conversion frame 3, sealing between the screen window 7 and the conversion frame 3 is achieved, gaps can be prevented from being formed, mosquitoes are prevented from entering a room through the gaps, and the mosquito-proof effect is improved.

The technical principle of the present utility model is described above in connection with the specific embodiments. The description is made for the purpose of illustrating the general principles of the utility model and should not be taken in any way as limiting the scope of the utility model. Other embodiments of the utility model will occur to those skilled in the art from consideration of the specification and practice of the utility model without the need for inventive faculty, and are within the scope of the claims.

Claims (10)

1. An outward opening aluminum alloy door and window, comprising:

a frame (1);

a center post (2), wherein the center post (2) is arranged on the frame (1);

the conversion frame (3) is arranged on the side frame (1) and the center column (2);

the window sashes (5) are hinged on the frame (1) and are positioned on one side of the outdoor;

a first sealing strip (6), wherein the first sealing strip (6) is arranged on the window sash (5) and is used for being pressed on the conversion frame (3); a kind of electronic device with high-pressure air-conditioning system

The second sealing strip (4), second sealing strip (4) are installed on conversion frame (3), be equipped with second layering (41) and second briquetting (42) on second sealing strip (4), second layering (41) with second briquetting (42) are used for compressing tightly on casement (5).

2. An outward opening aluminum alloy door and window according to claim 1, characterized in that the first sealing strip (6) comprises:

the first pressing strip (61), the first pressing strip (61) is L-shaped and is arranged at one end of the first sealing strip (6); a kind of electronic device with high-pressure air-conditioning system

The first supporting strip (62), the first supporting strip (62) sets up the other end of first sealing strip (6), and with first layering (61) are connected.

3. An outward opening aluminum alloy door and window according to claim 2, wherein the first support bar (62) is L-shaped, one end of which is provided at the end of the first sealing strip (6), and the other end of which is provided at the middle of the first bead (61).

4. The outward opening aluminum alloy door and window according to claim 2, further comprising: a first side bead (63), the first side bead (63) being arranged at a corner of the first bead (61).

5. An outward opening aluminum alloy door and window according to claim 2, wherein the first bead (61) is provided obliquely to the opposite face of the conversion frame (3).

6. An outward opening aluminum alloy door and window according to claim 1, characterized in that a contraction groove (43) is provided between the second bead (41) and the second sealing strip (4).

7. An outward opening aluminum alloy door and window according to claim 1, wherein the second pressing block (42) is provided with a second elastic hole (44).

8. An outward opening aluminum alloy door and window according to claim 7, wherein the second pressing block (42) is provided with a second side pressing bar (45).

9. An outward opening aluminum alloy door and window according to claim 1, wherein the second sealing strip (4) is provided with a plurality of first elastic holes (46), and the second pressing strip (41) and the second pressing block (42) are both positioned at one side of the first elastic holes (46).

10. An outward opening aluminum alloy door and window according to any one of claims 1 to 9, further comprising a screen window (7), wherein the screen window (7) is hinged on the frame (1) and located at one side of the room, and wherein the screen window (7) is disposed opposite to the conversion frame (3).