CN217354071U - Multiple heat and sound insulation aluminum alloy section - Google Patents

Abstract

A multiple heat-insulating sound-insulating aluminum alloy profile relates to the field of bridge-cut-off aluminum alloy profiles. The outer fan inner frame is connected with the outer fan outer frame through heat insulation strips, heat insulation nylon strips are arranged between the outer frame inner cavity and the outer frame outer cavity, the outer frame inner cavity is connected with the outer frame outer cavity through the heat insulation nylon strips, the outer frame inner cavity is fixed on a wall body, the outer frame outer cavity is in sealing connection with the outer fan outer frame, a middle support inner frame is arranged on one side of the outer frame inner cavity, the middle support inner frame is in sealing connection with the outer frame inner cavity, the middle support inner frame is connected with the middle support outer frame through the heat insulation nylon strips, a partition cavity is arranged on the outer frame inner cavity, and the partition cavity is in butt joint with the middle support inner frame. Through adopting multi-chamber frame construction to set up thermal-insulated, the sound-proof strip of multiunit equidirectional not in the cavity, thereby reach better thermal-insulated, the effect that gives sound insulation, and increased and cut off the cavity structure, be convenient for pour into the filler into and insulate against heat, waterproof, greatly promoted thermal-insulated, sound-proof, the water-proof effects of section bar, prolonged life.

Description

Multiple heat and sound insulation aluminum alloy section

Technical Field

The utility model relates to a multiple thermal-insulated sound insulation aluminum alloy ex-trusions relates to bridge cut-off aluminum alloy ex-trusions field.

Background

In modern buildings, door and window is the indispensable important structure in the building, because door and window is the structure that plays direct isolation effect to external environment, it is thermal-insulated, the effect that gives sound insulation has direct influence to people's daily life, because outstanding thermal-insulated syllable-dividing effect, door and window that adopts the bridge cut-off aluminium alloy preparation in present modern buildings receives people's liking more and more, the structure that the bridge cut-off aluminium structure mainly comprises two-layer aluminum alloy and heat insulating strip, thereby it is thermal-insulated, the effect gives sound insulation to reach with inside and outside wall through heat insulating strip.

Because the multi-cavity structure of the bridge-cut-off aluminum profile has better heat-insulating property, the arrangement of the heat-insulating strips in the cavity is a main technical means for improving the heat-insulating property, partial cavities are filled by the heat insulation strips and the fillers so as to achieve the effects of heat insulation and sound insulation, however, in order to achieve the purposes of lightness, thinness and low cost, the existing bridge-cut-off aluminum profile structure is provided with heat insulation strips at necessary connecting parts, a plurality of cavities are only filled with common materials, or the hollow cavity is used, and the heat insulation strips are mostly transversely arranged, so that a great deal of heat can still be transferred to the indoor when the door and window is exposed to the sun for a long time, indoor cold air can be conducted outwards in hot days, the heat insulation and sound insulation effects of the door and window are influenced to a certain extent, and the mullions and the outer frame of the bridge-cut-off structure are integrated, however, the interior of the outer side of the backrest is mostly not connected, gaps exist, and the heat insulation and waterproof effects are affected when the filler is not filled in place.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to defect among the prior art or not enough, provide a multiple thermal-insulated syllable-dividing aluminum alloy ex-trusions, through adopting multi-chamber frame construction to set up thermal-insulated, the sound insulation strip of multiunit equidirectional in the cavity, thereby reach better thermal-insulated, the effect that gives sound insulation, and increased and cut off the cavity structure, be convenient for pour into the filler into and carry out thermal-insulated, waterproof, greatly promoted thermal-insulated, sound insulation, the water-proof effects of section bar, prolonged life.

In order to achieve the above purpose, the utility model adopts the following technical scheme: the external-open fan comprises an external-open fan inner frame 1, an external-open fan outer frame 2, an outer frame inner cavity 3 and an outer frame outer cavity 4, wherein the external-open fan inner frame 1 is connected with the external-open fan outer frame 2 through a heat insulation strip, a heat insulation nylon strip 12 is arranged between the outer frame inner cavity 3 and the outer frame outer cavity 4, the outer frame inner cavity 3 is connected with the outer frame outer cavity 4 through the heat insulation nylon strip 12, the outer frame inner cavity 3 is fixed on a wall body, the outer frame outer cavity 4 is hermetically connected with the external-open fan outer frame 2, a middle support outer frame 6 is arranged on one side of the outer frame outer cavity 4, the middle support outer frame 6 is hermetically connected with the outer frame outer cavity 4, a middle support inner frame 5 is arranged on one side of the outer frame inner cavity 3, the middle support inner frame 5 is hermetically connected with the outer frame inner cavity 3, the middle support inner frame 5 is connected with the middle support outer frame 6 through the heat insulation nylon strip 12, a partition cavity 13 is arranged on the outer cavity 3, and the partition cavity 13 is abutted against the middle support inner frame 5.

The middle stile outer frame 6 is provided with a third sealing groove 6-1, a first heat insulation groove 6-2 and a second heat insulation groove 6-3, the third sealing groove 6-1 is arranged on one side of the middle stile outer frame 6 corresponding to the outward opening fan outer frame 2, and the first heat insulation groove 6-2 and the second heat insulation groove 6-3 are arranged in parallel in the cavity of the middle stile outer frame 6.

The first heat insulation groove 6-2 and the second heat insulation groove 6-3 are internally and transversely provided with a first heat insulation strip 7 and a second heat insulation strip 8 respectively.

A third heat insulation groove 3-1 and a fourth heat insulation groove 3-2 are arranged in the inner cavity 3 of the outer frame, and a third heat insulation strip 9 and a fourth heat insulation strip 10 are respectively and transversely arranged in the third heat insulation groove 3-1 and the fourth heat insulation groove 3-2.

The middle stile inner frame 5 is provided with a flange 5-1 and a second sealing groove 5-2, the flange 5-1 is connected with the tail end of the outer open fan inner frame 1 in a sealing manner, and the second sealing groove 5-2 is arranged on the inner side of the flange 5-1.

And a fifth heat insulation groove 5-3 and a sixth heat insulation groove 5-4 are arranged in the mullion inner frame 5, and a fifth heat insulation strip 11 and a sixth heat insulation strip 14 are transversely arranged in the fifth heat insulation groove 5-3 and the sixth heat insulation groove 5-4 respectively.

The width of the cavity of the inner frame 1 of the outward opening fan is the same as that of the cavity of the outer frame 2 of the outward opening fan, and the clamping groove structures on the opposite sides of the inner frame 1 of the outward opening fan and the outer frame 2 of the outward opening fan form a glass fixing groove.

The front end of the outer frame outer cavity 4 is provided with a first sealing groove 4-1.

After the technical scheme is adopted, the utility model discloses beneficial effect does: through adopting multi-chamber frame construction to set up thermal-insulated, the sound-proof strip of multiunit equidirectional in the cavity, thereby reach better thermal-insulated, the effect that gives sound insulation, and increased and cut off the cavity construction, be convenient for pour into the filler into and insulate against heat, waterproof, greatly promoted thermal-insulated, the sound insulation of section bar, water-proof effects, prolonged life.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the description below are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without inventive labor.

Fig. 1 is a schematic structural diagram of the present invention;

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

FIG. 3 is a schematic structural view of the inner chamber 3 of the outer frame of FIG. 2;

FIG. 4 is a schematic view of the inner frame 5 of the mullion of FIG. 2;

fig. 5 is a schematic structural view of the middle stile frame 6 of fig. 2.

Description of the reference numerals: the heat insulation structure comprises an outer opening fan inner frame 1, an outer opening fan outer frame 2, an outer frame inner cavity 3, an outer frame outer cavity 4, a middle support inner frame 5, a middle support outer frame 6, a first heat insulation strip 7, a second heat insulation strip 8, a third heat insulation strip 9, a fourth heat insulation strip 10, a fifth heat insulation strip 11, a heat insulation nylon strip 12, a partition cavity 13, a sixth heat insulation strip 14, a third heat insulation groove 3-1, a fourth heat insulation groove 3-2, a first sealing groove 4-1, a blocking edge 5-1, a second sealing groove 5-2, a fifth heat insulation groove 5-3, a sixth heat insulation groove 5-4, a third sealing groove 6-1, a first heat insulation groove 6-2 and a second heat insulation groove 6-3.

Detailed Description

Referring to fig. 1 to 5, the technical solution adopted by the present embodiment is: it contains outer fan inside casing 1, outer fan frame 2, frame inner chamber 3, frame exocoel 4 of opening outward, and outer fan inside casing 1 is connected through the heat insulating strip with outer fan frame 2 of opening outward, is provided with thermal-insulated nylon strip 12 between frame inner chamber 3 and the frame exocoel 4, and frame inner chamber 3 is connected through thermal-insulated nylon strip 12 with frame exocoel 4, and frame inner chamber 3 is fixed in the wall body, and frame exocoel 4 is connected with outer fan frame 2 sealing, frame exocoel 4 one side is provided with very frame 6, very frame 6 and frame exocoel 4 sealing connection, and 3 one side of frame inner chamber are provided with very inside casing 5, very inside casing 5 and frame inner chamber 3 sealing connection, and very inside casing 5 is connected through thermal-insulated nylon strip 12 with very frame 6, is provided with on the frame inner chamber 3 and cuts off chamber 13, cuts off chamber 13 and very inside casing 5 looks butt. A plurality of heat insulation cavities are formed by a plurality of main body frames and heat insulation frames, sealing connection is carried out between the frames by using sealing strips, heat insulation and sound insulation materials are filled in the cavities in a refilling mode, and the heat insulation and sound insulation effects of the door and window structure are greatly improved.

Furthermore, a third sealing groove 6-1, a first heat insulation groove 6-2 and a second heat insulation groove 6-3 are arranged on the mullion outer frame 6, the third sealing groove 6-1 is arranged on one side of the mullion outer frame 6 corresponding to the outer fan outer frame 2, the first heat insulation groove 6-2 and the second heat insulation groove 6-3 are arranged in parallel in a cavity of the mullion outer frame 6, and a first heat insulation strip 7 and a second heat insulation strip 8 are respectively and transversely arranged in the first heat insulation groove 6-2 and the second heat insulation groove 6-3. The traditional heat insulation cavity is usually directly filled with heat insulation sealing materials or a single heat insulation strip is longitudinally arranged, heat is mostly isolated, but the heat can still be conducted through heat insulation materials, the first heat insulation strip 7 and the second heat insulation strip 8 which are transversely arranged are not only not directly connected with the outside air, and the heat and sound can be better insulated in a spaced transverse arrangement mode.

Furthermore, a third heat insulation groove 3-1 and a fourth heat insulation groove 3-2 are arranged in the inner cavity 3 of the outer frame, and a third heat insulation strip 9 and a fourth heat insulation strip 10 are respectively and transversely arranged in the third heat insulation groove 3-1 and the fourth heat insulation groove 3-2. The third heat insulating strips 9 and the fourth heat insulating strips 10 which are arranged transversely at intervals can better insulate heat and sound.

Furthermore, a flange 5-1 and a second sealing groove 5-2 are arranged on the inner frame 5 of the mullion, the flange 5-1 is connected with the tail end of the inner frame 1 of the outward opening sash in a sealing manner, and the second sealing groove 5-2 is arranged on the inner side of the flange 5-1. The flange 5-1 is used for limiting the closing of the inner frame 1 of the outward opening sash, a sealing strip is arranged in the second sealing groove 5-2 to play a sealing role when the window is closed, and the flange 5-1 is used for installing and fixing the lock base when located at the position of the side frame.

Furthermore, a fifth heat insulation groove 5-3 and a sixth heat insulation groove 5-4 are arranged in the inner frame 5 of the mullion, and a fifth heat insulation strip 11 and a sixth heat insulation strip 14 are transversely arranged in the fifth heat insulation groove 5-3 and the sixth heat insulation groove 5-4 respectively. The fifth heat insulation groove 5-3 and the sixth heat insulation groove 5-4 which are arranged transversely at intervals can better insulate heat and sound.

Furthermore, the width of the cavity of the inner frame 1 of the outward opening fan is the same as that of the cavity of the outer frame 2 of the outward opening fan, and the clamping groove structures on the opposite sides of the inner frame 1 of the outward opening fan and the outer frame 2 of the outward opening fan form a glass fixing groove. The width of the cavity of the inner frame 1 of the outward-opened fan is the same as that of the cavity of the outer frame 2 of the outward-opened fan, the lock box can be directly installed in the inner frame 1 of the outward-opened fan, and the lock cylinder cannot penetrate into the outer frame 2 of the outward-opened fan, so that heat is prevented from entering the indoor space through the conduction of the lock cylinder.

Furthermore, a first sealing groove 4-1 is arranged at the front end of the outer frame outer cavity 4. The sealing strips are arranged in the first sealing groove 4-1 and are connected with the outer frame 2 of the outward opening fan in a sealing mode, and the sealing effect of the whole structure is guaranteed through the multi-layer sealing structure.

The utility model discloses a theory of operation: the window sash integrally comprises a plurality of cavity structures such as an inner frame 1 of the outward opening window sash, an outer frame 2 of the outward opening window sash, an inner frame cavity 3 of the outer frame, an outer frame cavity 4, an inner mullion frame 5, an outer mullion frame 6 and the like, the multi-cavity structures form a plurality of heat and sound insulation spaces, heat and sound insulation materials are filled in the cavities, so that the heat and sound insulation performance of the window sash is greatly improved, a partition cavity 13 is arranged on the inner frame cavity 3 of the outer frame, the partition cavity 13 is abutted against the inner frame 5 of the mullion frame, and a filler is injected through the abutting part to fill the gaps among the inner frame cavity 3 of the outer frame, the outer frame cavity 4, the inner frame 5 of the mullion frame 6, the infiltration of rainwater of the outer frame 4 is effectively prevented, meanwhile, a plurality of heat insulation strips are adopted for connection among the cavities, and a plurality of heat insulation strips are transversely arranged, so that the heat and sound insulation performance is better, better buffer performance is also provided, and good flexibility is provided for the whole structure of the window sash, the service life of the window sash is prolonged.

The above description is only for the purpose of illustrating the technical solutions of the present invention and not for the purpose of limiting the same, and other modifications or equivalent replacements made by those of ordinary skill in the art to the technical solutions of the present invention should be covered within the scope of the claims of the present invention as long as they do not depart from the spirit and scope of the technical solutions of the present invention.

Claims (8)

1. The utility model provides a multiple heat-insulation sound-insulation aluminum alloy section, its characterized in that: the external-open-fan heat insulation wall comprises an external-open-fan inner frame (1), an external-open-fan outer frame (2), an outer frame inner cavity (3) and an outer frame outer cavity (4), wherein the external-open-fan inner frame (1) is connected with the external-open-fan outer frame (2) through heat insulation strips, heat insulation nylon strips (12) are arranged between the outer frame inner cavity (3) and the outer frame outer cavity (4), the outer frame inner cavity (3) is fixed on a wall body, the outer frame outer cavity (4) is hermetically connected with the external-open-fan outer frame (2), a middle-support outer frame (6) is arranged on one side of the outer frame outer cavity (4), the middle-support outer frame (6) is hermetically connected with the outer frame outer cavity (4), a middle-support inner frame (5) is arranged on one side of the outer frame (3), the middle-support inner frame (5) is hermetically connected with the middle-support outer frame (6) through the heat insulation nylon strips (12), a partition cavity (13) is arranged on the inner cavity (3) of the outer frame, and the partition cavity (13) is abutted with the inner frame (5) of the mullion.

2. The multiple heat-insulating and sound-insulating aluminum alloy profile as claimed in claim 1, wherein: the heat insulation structure is characterized in that a third sealing groove (6-1), a first heat insulation groove (6-2) and a second heat insulation groove (6-3) are formed in the middle support outer frame (6), the third sealing groove (6-1) is arranged on one side, corresponding to the outward opening outer frame (2), of the middle support outer frame (6), and the first heat insulation groove (6-2) and the second heat insulation groove (6-3) are arranged in a cavity of the middle support outer frame (6) in parallel.

3. The multiple heat-insulating and sound-insulating aluminum alloy profile as claimed in claim 2, wherein: and a first heat insulation strip (7) and a second heat insulation strip (8) are respectively and transversely arranged in the first heat insulation groove (6-2) and the second heat insulation groove (6-3).

4. The multiple heat-insulating and sound-insulating aluminum alloy profile as claimed in claim 1, wherein: a third heat insulation groove (3-1) and a fourth heat insulation groove (3-2) are arranged in the inner cavity (3) of the outer frame, and third heat insulation strips (9) and fourth heat insulation strips (10) are respectively and transversely arranged in the third heat insulation groove (3-1) and the fourth heat insulation groove (3-2).

5. The multiple heat-insulating and sound-insulating aluminum alloy profile as claimed in claim 1, wherein: the middle stile inner frame (5) is provided with a flange (5-1) and a second sealing groove (5-2), the flange (5-1) is connected with the tail end of the outer opening fan inner frame (1) in a sealing mode, and the second sealing groove (5-2) is arranged on the inner side of the flange (5-1).

6. The multiple heat-insulating and sound-insulating aluminum alloy profile as claimed in claim 1, wherein: and a fifth heat insulation groove (5-3) and a sixth heat insulation groove (5-4) are arranged in the mullion inner frame (5), and fifth heat insulation strips (11) and sixth heat insulation strips (14) are transversely arranged in the fifth heat insulation groove (5-3) and the sixth heat insulation groove (5-4) respectively.

7. The multiple heat-insulating and sound-insulating aluminum alloy profile as claimed in claim 1, wherein: the width of the cavity of the inner frame (1) of the outward opening fan is the same as that of the cavity of the outer frame (2) of the outward opening fan, and the clamping groove structures at the opposite sides of the inner frame (1) of the outward opening fan and the outer frame (2) of the outward opening fan form a glass fixing groove.

8. The multiple heat-insulating and sound-insulating aluminum alloy profile as claimed in claim 1, wherein: the front end of the outer frame outer cavity (4) is provided with a first sealing groove (4-1).

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