CN217233235U - Novel bridge cut-off aluminium door and window - Google Patents

Abstract

The utility model discloses a novel bridge cut-off aluminium door and window belongs to door and window equipment technical field, including the glass subassembly, still include outer subassembly, inlayer subassembly, coupling assembling and seal assembly, the outside at the inlayer subassembly is set up to outer subassembly, the inlayer subassembly sets up the outside at the glass subassembly, seal assembly sets up the junction at outer subassembly and inlayer subassembly, the glass subassembly sets up on the inside wall of inlayer subassembly, coupling assembling sets up the junction at outer subassembly and inlayer subassembly, this device relates to a novel bridge cut-off aluminium door and window, and it is better to compare in traditional bridge cut-off aluminium door and window this device door and window thermal-insulated sealing performance that gives sound insulation.

Description

Novel bridge cut-off aluminium door and window

Technical Field

The utility model relates to a door and window equipment technical field especially relates to a novel bridge cut-off aluminium door and window.

Background

The door and window is one of the important external enclosure structures of the building, and has the functions of wind and rain shielding, heat insulation, sound insulation, lighting, ventilation and the like. Along with the improvement of living standard of people and the popularization of the concept of environmental protection and energy conservation, the requirements on doors and windows in decoration are higher and higher, and the bridge-cut-off aluminum doors and windows begin to be widely applied to buildings.

The bridge-cut-off aluminum door and window is composed of heat-insulating bridge-cut-off aluminum profiles and hollow glass, and has the functions of energy conservation, sound insulation, noise prevention, dust prevention, water prevention and the like. The existing heat insulation section bars are mainly divided into two types, one type is that a heat insulation bar material and an aluminum section bar are adopted, and a heat insulation bridge is formed through the processes of mechanical tooth punching, bar penetrating, rolling and the like, and is called as a bar penetrating type heat insulation section bar; the other method is to pour the heat insulation material into the heat insulation cavity of the aluminum alloy section bar, and form a heat insulation bridge through the working procedures of curing, removing bridge-cut metal and the like, which is called as a pouring type heat insulation section bar.

However, no matter the 'strip penetrating type' heat insulation section bar and the 'pouring type' heat insulation section bar, the inside of the aluminum profile frame is mostly in a hollow and isolated groove structure, although the heat insulation effect can be achieved, the heat insulation effect is poor, the sealing performance is low, the heat insulation effect still needs to be improved, and a door and window with good heat insulation and sound insulation sealing performance is lacked in the prior art.

SUMMERY OF THE UTILITY MODEL

An embodiment of the utility model provides a novel bridge cut-off aluminium door and window to the solution lacks the technical problem of a sealed better door and window that insulates against heat and sound.

The embodiment of the utility model provides an adopt following technical scheme: including the glass subassembly, still include skin subassembly, inlayer subassembly, coupling assembling and seal assembly, the skin subassembly sets up in the outside of inlayer subassembly, the inlayer subassembly sets up the outside at the glass subassembly, the seal assembly sets up the junction at skin subassembly and inlayer subassembly, the glass subassembly sets up on the inside wall of inlayer subassembly, coupling assembling sets up the junction at skin subassembly and inlayer subassembly.

Further, outer subassembly includes outer cavity, first outer layer spare, second outer layer spare, third outer layer spare and fourth outer layer spare, outer cavity is the level setting, first outer layer spare sets up on the inside wall of outer cavity, the second outer layer spare sets up the side at first outer layer spare, the third outer layer spare sets up the one side at the second outer layer spare, the fourth outer layer spare sets up and is served at one of outer cavity.

Further, the inlayer subassembly includes inlayer cavity, first inlayer spare, second inlayer spare, third inlayer spare, fourth inlayer spare and fifth inlayer spare, the inlayer cavity sets up the inboard one end of outer cavity, first inlayer spare sets up the offside at first outer spare and is in same water flat line, the second inlayer spare sets up the offside at the second outer spare and is in same water flat line, the third inlayer spare sets up the side at the third outer spare, the fourth inlayer spare sets up the one side at the fourth outer spare, the fifth inlayer spare sets up on the one end of inlayer cavity.

Further, the sealing assembly comprises a first sealing strip, a second sealing strip, a third sealing strip, a fourth sealing strip and a heat and sound insulation piece, the first sealing strip is arranged in the first outer layer piece, the second sealing strip is arranged in the second outer layer piece, the third sealing strip is arranged in the fourth outer layer piece, the fourth sealing strip is arranged in the fifth inner layer piece and is located at the innermost side of the inner layer cavity, the first sealing strip, the second sealing strip, the third sealing strip and the fourth sealing strip all adopt press-in type sealing rubber strips, the heat and sound insulation piece is arranged in the fifth inner layer piece, and the glass assembly is located at the side end of the heat and sound insulation piece.

Furthermore, coupling assembling includes first connecting piece, second connecting piece and third connecting piece, first connecting piece sets up in third outer layer spare, the second connecting piece sets up in third inlayer spare, first connecting piece is connected for rotating with the second connecting piece, the third connecting piece sets up the side at the second connecting piece and is in that the inlayer cavity is inboard.

The embodiment of the utility model provides an above-mentioned at least one technical scheme who adopts can reach following beneficial effect:

one of them, the utility model discloses a first inlayer spare is same water flat line and first inlayer spare are same water flat line with first outer layer spare, consequently, compare in traditional two non-same water flat lines of bridge cut-off, and under the same circumstances of other conditions, thermal-insulated thermal insulation performance is not as good as this device.

And secondly, the utility model discloses after inner assembly and outer subassembly installation, through the thermal-insulated piece that gives sound insulation that sets up, first inner spare, second inner spare and fourth inner spare can the pressfitting on first sealing strip, second sealing strip and the third sealing strip that corresponds, and this three is that the outside of this product is sealed, middle seal and inboard are sealed, need not too much sealed to the sealed thermal-insulated sound-proof performance of this product has been realized.

Third, the utility model discloses a coupling assembling can rotate outer subassembly and inlayer subassembly to be connected, because what first sealing strip, second sealing strip, third sealing strip, fourth sealing strip adopted is the forced adhesive tape, when inlayer subassembly rotates, does not cut just can seamless connection with violence to improve door and window's overall sealing nature, also can conveniently change in the future.

Drawings

The accompanying drawings, which are described herein, serve to provide a further understanding of the invention and constitute a part of this specification, and the exemplary embodiments and descriptions thereof are provided for explaining the invention without unduly limiting it. In the drawings:

fig. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic view of the three-dimensional structure of the present invention;

FIG. 3 is a schematic view of the explosion structure of the present invention;

FIG. 4 is a schematic view of the structure of the outer layer module of the present invention;

FIG. 5 is a schematic structural view of the middle and inner layer assembly of the present invention;

fig. 6 is a third schematic view of the three-dimensional structure of the present invention.

Reference numerals

The glass component 1, the outer layer component 2, the outer layer cavity 21, the first outer layer member 22, the second outer layer member 23, the third outer layer member 24, the fourth outer layer member 25, the inner layer component 3, the inner layer cavity 31, the first inner layer member 32, the second inner layer member 33, the third inner layer member 34, the fourth inner layer member 35, the fifth inner layer member 36, the sealing component 4, the first sealing strip 41, the second sealing strip 42, the third sealing strip 43, the fourth sealing strip 44, the heat and sound insulation member 45, the connecting component 5, the first connecting member 51, the second connecting member 52 and the third connecting member 53.

Detailed Description

To make the purpose, technical solution and advantages of the present invention clearer, the following will combine the embodiments of the present invention and the corresponding drawings to clearly and completely describe the technical solution of the present invention. It is to be understood that the embodiments described are only some embodiments of the invention, and not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

The technical solutions provided by the embodiments of the present invention are described in detail below with reference to the accompanying drawings.

The embodiment of the utility model provides a novel bridge cut-off aluminium door and window, including glass subassembly 1, outer subassembly 2, inlayer subassembly 3, coupling assembling 5 and seal assembly 4, outer subassembly 2 sets up in the outside of inlayer subassembly 3, inlayer subassembly 3 sets up the outside at glass subassembly 1, seal assembly 4 sets up the junction at outer subassembly 2 and inlayer subassembly 3, glass subassembly 1 sets up on the inside wall of inlayer subassembly 3, outer subassembly 2, inlayer subassembly 3 and glass subassembly 1 are by outer and interior setting, coupling assembling 5 sets up the junction at outer subassembly 2 and inlayer subassembly 3.

Preferably, the outer assembly 2 includes an outer cavity 21, a first outer member 22, a second outer member 23, a third outer member 24 and a fourth outer member 25, the outer cavity 21 is horizontally disposed, the first outer member 22 is disposed on the inner side wall of the outer cavity 21, the second outer member 23 is disposed at the side end of the first outer member 22, the third outer member 24 is disposed at one side of the second outer member 23, and the fourth outer member 25 is disposed at one end of the outer cavity 21.

Preferably, the inner layer assembly 3 includes an inner layer cavity 31, a first inner layer 32, a second inner layer 33, a third inner layer 34, a fourth inner layer 35 and a fifth inner layer 36, the inner layer cavity 31 is disposed at one end of the inner side of the outer layer cavity 21, the first inner layer 32 is disposed at the opposite side of the first outer layer 22 and is at the same horizontal line, the second inner layer 33 is disposed at the opposite side of the second outer layer 23 and is at the same horizontal line, the third inner layer 34 is disposed at the side end of the third outer layer 24, the fourth inner layer 35 is disposed at one side of the fourth outer layer 25, the fifth inner layer 36 is disposed at one end of the inner layer cavity 31, and by virtue of the first inner layer 32 being at the same horizontal line as the first outer layer 22 and the first inner layer 32 being at the same horizontal line as the first outer layer 22, the two traditional bridge breaks are at different horizontal lines, and under the same other conditions, the heat insulation performance is inferior to that of the product.

Preferably, the sealing assembly 4 includes a first sealing strip 41, a second sealing strip 42, a third sealing strip 43, a fourth sealing strip 44 and a heat and sound insulating member 45, the first sealing strip 41 is disposed in the first outer layer 22, the second sealing strip 42 is disposed in the second outer layer 23, the third sealing strip 43 is disposed in the fourth outer layer 25, the fourth sealing strip 44 is disposed in the fifth inner layer 36 and is located at the innermost side of the inner cavity 31, the first sealing strip 41, the second sealing strip 42, the third sealing strip 43 and the fourth sealing strip 44 all adopt press-in type sealing strips, the heat and sound insulating member 45 is disposed in the fifth inner layer 36, the glass assembly 1 is located at the side end of the heat and sound insulating member 45, and after the inner layer assembly 3 and the outer layer assembly 2 are installed, the first inner layer 32, the second inner layer 33 and the fourth inner layer 35 can be pressed in the corresponding first sealing strip 41, the second sealing strip 42, the third sealing strip 43 and the fourth sealing strip 35, And the outer side sealing, the middle sealing and the inner side sealing of the product are performed on the second sealing strip 42 and the third sealing strip 43, so that excessive sealing is not needed, and the sealing, heat insulation and sound insulation performance of the product is realized.

Preferably, coupling assembling 5 includes first connecting piece 51, second connecting piece 52 and third connecting piece 53, first connecting piece 51 sets up in third skin 24, second connecting piece 52 sets up in third inlayer 34, first connecting piece 51 is connected for rotating with second connecting piece 52, third connecting piece 53 sets up the side at second connecting piece 52 and is in inlayer cavity 31 inboard, can rotate skin subassembly 2 and inlayer subassembly 3 through coupling assembling 5 and connect, because first sealing strip 41, second sealing strip 42, third sealing strip 43, fourth sealing strip 44 adopt be the forced adhesive tape, when inlayer subassembly 3 rotates, do not cut just seamless connection with violence to improve door and window's overall leakproofness, also can more conveniently change in the future.

The above description is only an example of the present invention, and is not intended to limit the present invention. Various modifications and changes may occur to those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the scope of the claims of the present invention.

Claims (5)

1. The utility model provides a novel bridge cut-off aluminium door and window, includes glass subassembly (1), its characterized in that still includes outer subassembly (2), inlayer subassembly (3), coupling assembling (5) and seal assembly (4), outer subassembly (2) set up the outside in inlayer subassembly (3), inlayer subassembly (3) set up the outside in glass subassembly (1), seal assembly (4) set up the junction in outer subassembly (2) and inlayer subassembly (3), glass subassembly (1) sets up on the inside wall of inlayer subassembly (3), coupling assembling (5) set up the junction in outer subassembly (2) and inlayer subassembly (3).

2. The novel bridge cut-off aluminum door window as claimed in claim 1, wherein the outer layer assembly (2) comprises an outer layer cavity (21), a first outer layer member (22), a second outer layer member (23), a third outer layer member (24) and a fourth outer layer member (25), the outer layer cavity (21) is horizontally arranged, the first outer layer member (22) is arranged on the inner side wall of the outer layer cavity (21), the second outer layer member (23) is arranged on the side end of the first outer layer member (22), the third outer layer member (24) is arranged on one side of the second outer layer member (23), and the fourth outer layer member (25) is arranged on one end of the outer layer cavity (21).

3. The novel bridge cut-off aluminum door window as claimed in claim 2, characterized in that said inner layer assembly (3) comprises an inner layer cavity (31), a first inner layer (32), a second inner layer (33), a third inner layer (34), a fourth inner layer (35) and a fifth inner layer (36), the inner cavity (31) is arranged at one end of the inner side of the outer cavity (21), the first inner layer piece (32) is arranged at the opposite side of the first outer layer piece (22) and is positioned at the same horizontal line, the second inner layer member (33) is arranged on the opposite side of the second outer layer member (23) and is in the same horizontal line, the third inner layer (34) is arranged at the side end of the third outer layer (24), the fourth inner layer (35) is arranged on one side of the fourth outer layer (25), the fifth inner layer piece (36) is arranged on one end of the inner layer cavity (31).

4. The novel bridge cut-off aluminum door window of claim 2, characterized in that the sealing assembly (4) comprises a first sealing strip (41), a second sealing strip (42), a third sealing strip (43), a fourth sealing strip (44) and a thermal and sound insulation member (45), the first sealing strip (41) is arranged in the first outer layer member (22), the second sealing strip (42) is arranged in the second outer layer member (23), the third sealing strip (43) is arranged in the fourth outer layer member (25), the fourth sealing strip (44) is arranged in the fifth inner layer member (36) and is positioned at the innermost side of the inner layer cavity (31), the first sealing strip (41), the second sealing strip (42), the third sealing strip (43) and the fourth sealing strip (44) are press-in sealing rubber strips, and the thermal and sound insulation member (45) is arranged in the fifth inner layer member (36), the glass component (1) is positioned at the side end of the heat and sound insulation piece (45).

5. The novel bridge cut-off aluminum door and window as claimed in claim 2, characterized in that the connecting assembly (5) comprises a first connecting piece (51), a second connecting piece (52) and a third connecting piece (53), wherein the first connecting piece (51) is arranged in the third outer layer piece (24), the second connecting piece (52) is arranged in the third inner layer piece (34), the first connecting piece (51) and the second connecting piece (52) are rotatably connected, and the third connecting piece (53) is arranged at the side end of the second connecting piece (52) and is positioned inside the inner cavity (31).

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