CN214616254U - System door and window section bar with high performance and low energy consumption sound insulation construction - Google Patents

Abstract

The utility model discloses a system door and window section bar with high performance and low energy consumption insulation construction that gives sound insulation, include the first section bar that is used for assembling fixed window frame, be used for the second section bar of equipment activity fan frame and be used for the layering section bar of centre gripping window glass, be provided with first steel lining chamber in the first section bar, be provided with first steel lining in the first steel lining chamber, first section bar top is provided with first notch and first supporter, be provided with isobaric adhesive tape in the first notch, the medial surface of first supporter is provided with first adhesive tape, be provided with second steel lining chamber in the second section bar, be provided with the second steel lining in the second steel lining chamber, second section bar top is provided with second notch and second supporter, and glass is fixed in the second notch through layering section bar and second supporter. The utility model discloses satisfy better heat preservation, sound insulation performance, reduce energy loss, whole window heat preservation, sound insulation, airtight, the watertight performance of very big improvement.

Description

System door and window section bar with high performance and low energy consumption sound insulation construction

Technical Field

The utility model relates to a building material field especially relates to a system door and window section bar with high performance and low energy consumption sound insulation construction.

Background

Safety and energy conservation are one of the most important measures for building two types of society at present in China, the building energy consumption accounts for about 30% of the total social energy consumption, and the door and window energy consumption accounts for about 40% -50% of the total social energy consumption, so that the door and window energy conservation becomes one of the most important parts in the social energy conservation. At present, the section bar for building doors and windows mainly comprises; aluminum alloy section bar, plastic section bar, thermal-insulated bridge cut-off section bar. However, the structure designed by the existing plastic section bar can not meet the requirements of energy conservation and regional climate of doors and windows.

At present, the plastic-steel door and window profile still continues a traditional profile section concept, a profile cavity still continues a three-cavity structure and a five-cavity structure, and although each company improves the profile, the profile is only added to a vertical cavity of the profile and is transversely unchanged, so that the vertical section is increased, and the strength, the sound insulation and the heat preservation performance of the profile are improved. But the door and window finished product has different water tightness, air tightness, sound insulation and heat preservation performances. The glass mounting notch still keeps the notch flat, is in the same plane with the drainage point, and is separated from the steel lining cavity by only one transverse rib. Must use glass pad bridge and glass cushion in the glass installation, if want to let glass firm, just must pack glass suitable for reading again and control both sides, fill and make the horizontal muscle atress between glass installation notch and the steel lining chamber warp and collapse down, form the not smooth ponding phenomenon of drainage easily, can appear rainwater inward flow when ponding is too much, follow indoor layering seam and ooze. The water accumulated for a long time can slowly permeate into the cavity of the steel lining from the screw hole of the mounting hardware, so that the steel lining is rusted when encountering water. The glass mat bridge and the cushion block used during the installation of the glass lead to complex installation and increase the installation strength. Accordingly, improvements are needed.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a system door and window section bar with high performance and low energy consumption sound insulation construction to solve the problem that provides among the above-mentioned background art.

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

a system door and window section bar with high performance and low energy consumption sound insulation and heat preservation structure comprises a first section bar for assembling a fixed window frame, a second section bar for assembling a movable sash frame and a batten section bar for clamping window glass, wherein a first steel lining cavity is arranged in the first section bar, a first steel lining is arranged in the first steel lining cavity, a first notch and a first support body are arranged at the top of the first section bar, an isobaric adhesive tape is arranged in the first notch, a first adhesive tape is arranged on the inner side surface of the first support body, a second steel lining cavity is arranged in the second section bar, a second steel lining is arranged in the second steel lining cavity, a second notch and a second support body are arranged at the top of the second section bar, glass is fixed in the second notch through the batten section bar and the second support body, a second adhesive tape and a third adhesive tape are respectively arranged between the batten section bar and the second support body and the glass, and a third supporting body is arranged at the bottom of the second section bar, and a fourth adhesive tape is arranged between the third supporting body and the first section bar.

Preferably, in the above-mentioned system door and window profile with high performance and low energy consumption sound insulation and heat preservation structure, the top ends of the first steel lining cavity and the second steel lining cavity are respectively provided with a transverse reinforcing rib.

Preferably, in the above-mentioned system door and window profile with high performance and low energy consumption soundproof and heat insulating structure, a type 0 adhesive tape is disposed at the center of the second notch.

Preferably, in the above-mentioned system door and window profile with high performance and low energy consumption sound insulation and heat preservation structure, the first steel lining and the second steel lining are both provided with openings, and the first steel lining and the second steel lining are filled with fireproof materials.

Preferably, in the above-mentioned system door and window section bar with high performance and low energy consumption sound insulation and heat preservation structure, a first stainless steel fire strip is arranged between the isobaric adhesive tape and the first adhesive tape, and a first expansion strip is embedded at one end of the first stainless steel fire strip close to the first adhesive tape.

Preferably, in the above-mentioned system door and window profile with high performance and low energy consumption sound insulation and heat preservation structure, a U-shaped second stainless steel fire prevention strip is arranged between the second notch and the glass, and a third expansion strip is embedded at one end of the second stainless steel fire prevention strip close to the second support body.

Preferably, in the above-mentioned system door and window profile with high performance and low energy consumption sound insulation and heat preservation structure, a rubber buffer layer is arranged between the second stainless steel fireproof strip and the glass.

Preferably, in the above-mentioned system door and window profile with high performance and low energy consumption sound insulation and heat preservation structure, the bottom of the second profile is provided with a plurality of fire protection grooves with tearing openings, and the fire protection grooves after tearing the tearing openings are inserted with third expansion strips. Compared with the prior art, the beneficial effects of the utility model are that:

the utility model discloses combine different region climates, life use habit and market demand, well-designed high performance, window system and low energy consumption (fire-resistant) window system structure satisfy better heat preservation, sound insulation performance, reduce energy loss, whole window heat preservation, sound insulation, airtight, watertight performance of very big improvement.

Drawings

Fig. 1 is a schematic structural view of a system door and window profile with high performance and low energy consumption sound insulation and heat preservation structure in the first embodiment of the present invention.

Fig. 2 is a schematic structural diagram of a first profile according to a first embodiment of the present invention.

Fig. 3 is a schematic structural view of a system door and window profile with high performance and low energy consumption sound insulation and heat preservation structure in the second embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

Example one

Referring to fig. 1 and 2, a system door and window profile with high performance and low energy consumption sound insulation and heat preservation structure, used as a common door and window, having no requirement for fire resistance, comprises a first profile 1 for assembling a fixed window frame, a second profile 2 for assembling a movable sash frame, and a bead profile 3 for clamping a window glass, wherein a first steel lining cavity 11 is arranged in the first profile 1, a first steel lining 4 is arranged in the first steel lining cavity 11, a first notch 12 and a first support 13 are arranged on the top of the first profile 1, an isobaric adhesive tape 121 is arranged in the first notch 12, a first adhesive tape 131 is arranged on the inner side surface of the first support 13, a second steel lining cavity 21 is arranged in the second profile 2, a second steel lining 5 is arranged in the second steel lining cavity 21, a second notch 22 and a second support 23 are arranged on the top of the second profile 2, glass is fixed in the second notch 22 through the bead profile 3 and the second support 23, a second adhesive tape 31 and a third adhesive tape 231 are respectively arranged between the pressing strip profile 3 and the glass and between the second supporting body 23 and the glass, a third supporting body 24 is arranged at the bottom of the second profile 2, and a fourth adhesive tape 241 is arranged between the third supporting body 24 and the first profile 1.

Among this technical scheme, isobaric adhesive tape cooperation first adhesive tape and fourth adhesive tape form the three-layer and seal, and through the separation of the isobaric adhesive tape of the sealed in middle, the exocoel forms the air-water mixing chamber, and the inner chamber is thermal-insulated heat preservation chamber, whole window heat preservation, sound insulation, airtight, the watertight performance of very big improvement.

Further, the top ends of the first steel lining cavity 11 and the second steel lining cavity 21 are respectively provided with a transverse reinforcing rib.

In the technical scheme, the transverse reinforcing ribs enhance the transverse strength of the profile body, and the water accumulation phenomenon caused by the collapse of the glass mounting groove is avoided; the glass is reduced to extrude the second steel lining cavity (the first steel lining cavity is treated in the same way when the glass is arranged on the first notch), so that the second steel lining cavity is prevented from being deformed, and meanwhile, an independent cavity is formed between the glass groove and the second steel lining cavity, so that water vapor is prevented from leaking and corroding the first steel lining in the second steel lining cavity, better heat preservation and sound insulation performance is provided, and energy loss is reduced; play double-deck sealed effect in hardware fitting installation, the five metals is connected with the second steel lining through the screw direct second steel lining chamber, through the bottom and the horizontal reinforcing muscle of first notch, makes the five metals installation more firm, simultaneously, effectively prevents that water from permeating in the steel lining intracavity from the screw.

Further, the center of the second notch 22 is provided with a type 0 adhesive tape 221.

In the technical scheme, glass and a 0-type adhesive tape are tightly combined to form a closed three-cavity structure, convection is blocked, and an original single cavity is divided into three closed cavities, so that rainwater is blocked from flowing to the indoor direction when drainage is not smooth; meanwhile, the 0-shaped adhesive tape can effectively support the glass from the periphery, so that the glass is tightly fixed in the center of the glass and is not easy to shake, the periphery of the glass is suspended, the glass is tightly combined with the 0-shaped adhesive tape, left and right filling during glass installation is omitted, the cost is reduced, the installation process is simplified, and the glass installation device is safe, reliable, energy-saving, environment-friendly and convenient to operate.

Further, the bottom of the second profile 2 is provided with three fire-protection slots 25 with tear-outs.

In the technical scheme, the tearing opening is not required to be torn, and the integral strength of the second section bar is ensured.

Example two

Different from the first embodiment, the first expansion strip 251 is inserted into the fire-proof groove after the tearing opening is torn off.

In the technical scheme, two sides of the opening end of the fireproof groove respectively protrude out of the limiting bosses, the tearing strip is arranged between the two corresponding limiting bosses, the thickness of each limiting boss is the same as that of the tearing strip, and the limiting bosses are used for limiting the first expansion strip after insertion, so that the first expansion strip is prevented from being curled or falling off and the like; when the preparation fire window, tear the strip before the casement welding, first inflation strip alternates and corresponds fire-proof groove, then the welding for the firm fixed wherein of the fire prevention strip that penetrates, ensure that the fire window uses throughout the year, do not harm fire-resistant function, the both ends of tearing the strip all are provided with the incision with the junction inside and outside of the spacing boss that corresponds, the thickness of tearing the strip is 1.5mm, inscribe degree of depth 0.6mm, outer notch degree of depth 0.4mm, the tear strip can be torn to the manpower, the operation of being convenient for.

Further, the first steel lining 4 and the second steel lining 5 are both provided with openings, and the fireproof materials 6 are filled in the first steel lining 4 and the second steel lining 5.

Further, a first stainless steel fireproof strip 7 is arranged between the isobaric rubber strip 121 and the first rubber strip 131, and a second expansion strip 71 is embedded at one end, close to the first rubber strip 131, of the first stainless steel fireproof strip 7.

Further, a U-shaped second stainless steel fire-proof strip 8 is arranged between the second notch 22 and the glass, and a third expansion strip 81 is embedded at one end of the second stainless steel fire-proof strip 8 close to the second supporting body 23.

Among the three above-mentioned technical scheme, stainless steel fire prevention strip and corresponding fire-resistant material and measure cooperate first inflation strip, and the national standard that the fire-resistant function of effective guarantee fire door and window is ≧ 1 hour has guaranteed fire-resistant door and window whole function and quality.

Further, a rubber buffer layer 9 is arranged between the second stainless steel fireproof strip 8 and the glass.

In this technical scheme, avoid glass and the rigid collision of second stainless steel fire prevention strip.

To sum up, the utility model discloses combine different region climates, life to use custom and market demand, well designed high performance, window system and low energy consumption (fire-resistant) window system structure satisfy better heat preservation, sound insulation performance, reduce energy loss, whole window heat preservation, sound insulation, airtight, the watertight performance of very big improvement.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

The foregoing is directed to embodiments of the present application and it is noted that numerous modifications and adaptations may be made by those skilled in the art without departing from the principles of the present application and are intended to be within the scope of the present application.

Claims (8)

1. A system door and window section bar with high performance and low energy consumption sound insulation and heat preservation structure comprises a first section bar for assembling a fixed window frame, a second section bar for assembling a movable sash frame and a batten section bar for clamping window glass, and is characterized in that a first steel lining cavity is arranged in the first section bar, a first steel lining is arranged in the first steel lining cavity, a first notch and a first support body are arranged at the top of the first section bar, an isobaric adhesive tape is arranged in the first notch, a first adhesive tape is arranged on the inner side surface of the first support body, a second steel lining cavity is arranged in the second section bar, a second steel lining is arranged in the second steel lining cavity, a second notch and a second support body are arranged at the top of the second section bar, glass is fixed in the second notch through the batten section bar and the second support body, a second adhesive tape and a third adhesive tape are respectively arranged between the batten section bar and the second support body and the glass, and a third supporting body is arranged at the bottom of the second section bar, and a fourth adhesive tape is arranged between the third supporting body and the first section bar.

2. The system door and window profile with high performance and low energy consumption sound and heat insulation structure as claimed in claim 1, wherein the top ends of the first steel lining cavity and the second steel lining cavity are respectively provided with a transverse reinforcing rib.

3. The system door and window profile with high performance and low energy consumption soundproof and heat insulating structure according to claim 1 or 2, wherein a 0-type rubber strip is provided at the center of the second notch.

4. The structural section for system doors and windows with high performance and low energy consumption sound insulation and heat preservation as claimed in claim 1 or 2, wherein the bottom of the second structural section is provided with a plurality of fire-proof grooves with tearing openings, and the fire-proof grooves after the tearing openings are inserted with the first expansion strips.

5. The system door and window profile with high performance and low energy consumption sound and heat insulation structure as claimed in claim 4, wherein the first steel lining and the second steel lining are provided with openings, and the first steel lining and the second steel lining are filled with fireproof materials.

6. The system door and window profile with the high-performance and low-energy-consumption sound insulation and heat preservation structure is characterized in that a first stainless steel fireproof strip is arranged between the isobaric rubber strip and the first rubber strip, and a second expansion strip is embedded at one end, close to the first rubber strip, of the first stainless steel fireproof strip.

7. The system door and window profile with high performance and low energy consumption sound and heat insulation structure as claimed in claim 4, wherein a U-shaped second stainless steel fire-proof strip is arranged between the second notch and the glass, and a third expansion strip is embedded at one end of the second stainless steel fire-proof strip close to the second supporting body.

8. The system door and window profile with high performance and low energy consumption sound and heat insulation structure as claimed in claim 7, wherein a rubber buffer layer is arranged between the second stainless steel fire-proof strip and the glass.

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