CN216381117U - High energy-saving window for passive building - Google Patents

Abstract

The utility model discloses a high energy-saving window for a passive house building, which comprises a window frame, a mullion, hollow toughened glass and an inward opening sash; the periphery of the indoor side of the hollow toughened glass is provided with a frame pressing line and a pressing line adhesive tape; a sealing rubber strip is arranged at the outer diameter of the inner side of the internally opened fan chamber; the periphery of the inner side of the internally-opened fan chamber is provided with an internally-opened fan pressing line; waterproof rubber strips are respectively arranged at the inner diameters of the window frame and the mullion; the outer diameter of the inward opening sash is respectively provided with a heat insulation strip; the cavities of the window frame, the mullion and the inward opening sash are respectively provided with a heat preservation filler; the window frame, mullion and internally opened sash are assembled by an indoor side part and an outdoor side part. The heat insulation section of the utility model is as high as 95mm, and the window frame, the inward opening sash, the multi-cavity adhesive tape and the matched facilities of the cavity filled with polyurethane foam and the like form an integrated window, so that the whole window has good wind pressure resistance, high air tightness and water tightness, excellent heat insulation performance, good energy-saving and noise-reducing effects, and the whole window has a streamline appearance, is attractive and luxurious and has high grade.

Description

High energy-saving window for passive building

Technical Field

The utility model belongs to the technical field of windows, and particularly relates to a high-energy-saving window for passive house buildings.

Background

The passive window is a concept raised by Germany, is an energy-saving door window based on a passive design core, is mainly applied to passive buildings, does not depend on the consumption of conventional energy sources such as air conditioners and heating equipment of the traditional buildings, and can achieve five constant comfortable spaces of constant temperature, constant humidity, constant oxygen, constant silence and constant cleanness by virtue of superior heat insulation, heat preservation and air tightness of the passive window, thereby ensuring the optimal comfortable state of a human body in a room. It is a great trend for the development of the door and window industry in the future.

In a common building, the heat dissipation loss through the external window accounts for about 40% of the energy loss of the whole external enclosure structure, and in conversion, the energy consumption of the external window of the common building almost accounts for 20% of the total social energy consumption.

Therefore, the passive door and window is very important for reducing the building energy consumption and implementing the building energy conservation, promoting the energy consumption reduction and reasonable energy utilization and promoting the economic and social development.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that the existing building external window technology is improved on the basis of the existing technology of the building external window, and provides a high-energy-saving window for passive house building, which integrates the functions of simple and ingenious structure, stability, sealing property, wind resistance, sound insulation and noise reduction (noise reduction is more than 60 decibels), energy conservation (heat insulation and energy conservation are more than 85 percent), safety, more attractive and luxurious appearance, more convenient manufacture, installation and use, lower manufacturing cost relatively meeting the requirements of functions, good wind pressure resistance, high air tightness and water tightness, excellent heat insulation and heat preservation performance, good energy conservation and noise reduction effects and the like.

The utility model relates to a high energy-saving window for passive building construction, which comprises a window frame; a mullion is arranged in the middle of the window frame; hollow toughened glass and an inward opening sash are arranged between the window frame and the mullion; a frame pressing line is arranged on the periphery of the indoor side of the hollow toughened glass, and a pressing line adhesive tape is arranged between the frame pressing line and the hollow toughened glass; a sealing rubber strip is arranged at the outer diameter of the inner side of the inward opening fan chamber; the periphery of the inner side of the inner opening fan chamber is provided with an inner opening fan pressing line; the inward opening sash is movably and inward connected with the window frame through a hinge;

the key points are as follows:

waterproof rubber strips used for being in sealing butt joint with the outer diameter of the inward opening sash are respectively arranged at the inner diameters of the window frame and the mullion; the outer diameter of the inward opening sash is respectively provided with a heat insulation strip which is used for being in sealing butt joint with the inner diameters of the window frame and the mullion;

the window frame, the mullion and the cavity of the inward opening sash are respectively provided with a heat preservation filler;

the window frame, well club with interior division of casement is formed by indoor side part and outdoor side part equipment.

Furthermore, a drain hole is formed in the bottom of the window frame, and a drain port cover is correspondingly arranged on the outdoor side of the drain hole.

Further, the heat preservation filler is a polyurethane foaming agent.

The high-energy-saving window for the passive house building, which is composed of the window frame and the inward opening sash, has the heat insulation section as high as 95mm, and is an integrated window composed of the window frame, the inward opening sash, a multi-cavity adhesive tape, a cavity filled with polyurethane foam and other supporting facilities, so that the whole window has the advantages of good wind pressure resistance, high air tightness and water tightness, excellent heat insulation performance, good energy-saving and noise-reducing effects, and the appearance of the whole window is streamline, beautiful, luxurious and high in grade.

Drawings

FIG. 1 is a front view showing the structure of the present invention.

Fig. 2 is a schematic view of the structure in the direction of a-a in fig. 1.

Fig. 3 is a schematic view of the structure in the direction B-B in fig. 1.

In the figure: 1 window frame, 2 interior division of fanning, 3 polyurethane foams, 4 interior division of fanning line balls, 5 cavity toughened glass, 6 heat insulating strip, 7 joint strip, 8 well club, 9 frame line balls, 10 line ball adhesive tapes, 11 waterproof stripe, 12 drainage flap, 13 handles, 14 hinges.

Detailed Description

According to fig. 1 to 3, the present invention relates to a high energy saving window for passive housing construction, which comprises a window frame 1; a mullion 8 is arranged in the middle of the window frame 1; a hollow toughened glass 5 and an inward opening sash 2 are arranged between the window frame 1 and the mullion 8; a frame pressing line 9 is arranged on the periphery of the indoor side of the hollow toughened glass 5, and a pressing line adhesive tape 10 is arranged between the frame pressing line 9 and the hollow toughened glass 5; a sealing rubber strip 7 is arranged at the outer diameter of the indoor side of the inward opening sash 2; the periphery of the indoor side of the inward opening sash 2 is provided with an inward opening sash pressing line 4; the inward opening sash 2 is movably and inward connected with the window frame 1 through a hinge 14;

the key points are as follows:

the inner diameters of the window frame 1 and the mullion 8 are respectively provided with a waterproof rubber strip 11 which is used for being in sealing butt joint with the outer diameter of the inner casement 2; the outer diameter of the inward opening sash 2 is respectively provided with a heat insulation strip 6 which is mutually in sealing butt joint with the inner diameters of the window frame 1 and the mullion 8;

the cavity of the window frame 1, the cavity of the mullion 8 and the cavity of the inward opening sash 2 are respectively provided with a heat preservation filler 3;

the window frame 1, the mullion 8 and the inward opening sash 2 are assembled by an indoor side part and an outdoor side part.

Further, a drain hole is formed in the bottom of the window frame 1, and a drain cover 12 is correspondingly arranged on the outdoor side of the drain hole.

Further, the heat insulating filler 3 is a polyurethane foaming agent.

The window frame 1, the inward opening sash 2 and the mullion 8 are formed by connecting an inner aluminum section and an outer aluminum section through a multi-cavity high-performance PA66 nylon heat insulation strip with the width of 54mm, the standard European standard C groove notch is formed, the wall thickness of a main material reaches 1.8mm, the width of the window frame is 95mm, the window frame 1 is obliquely cut at 45 degrees, section glue is coated on a section roll, the window frame is connected through a pin glue injection corner combining process, the inner vertical surface and the outer vertical surface of the section are connected through glue injection corner combining steel sheets, the connection strength and the waterproof performance of the window frame and the inward opening sash are guaranteed powerfully, the corner stability is good, and the surface is smooth and attractive. After the 45-degree pin glue injection angle combination is carried out on the window frame 1, the window frame is connected with the window frame through the glue injection mullion connection angle code with the mullion 8, and the window frame of the whole window is formed after the connection. The inward opening sash 2 is also obliquely cut at 45 degrees, the section is coated with section glue in a rolling way and is connected through a pin glue injection angle assembling process, and the inner and outer vertical surfaces of the section are connected through glue injection angle assembling steel sheets. A class-A fireproof polyurethane foaming agent is filled in section material cavities of the window frame, the inner glass sash, the mullion and the pressing line and a cavity of the heat insulation strip, the heat conductivity coefficient lambda value of the foaming agent is 0.035, the foaming filling reduces the gas convection to the maximum extent, the dissipation of indoor heat is blocked, and meanwhile, the effects of sound insulation and noise reduction are achieved.

The notch of the inward opening sash glass is 54mm, all glass is coplanar, 5+16+5+16+5 three-glass two-hollow double-LOW-E argon-filled safety toughened glass is adopted, and the opening and closing of the inward opening sash are controlled by a handle 13 on the inward opening sash. Adopt waterproof adhesive tape 11 and joint strip 7 between interior casement 2 and the window frame 1, improved the waterproof performance of whole window greatly, technical indicator all reaches the top level standard. The tooth-shaped structure of the sealing rubber strip ensures sealing, and meanwhile, the hinge 14 is installed, so that cutting is convenient, and the sealing rubber strip can be used for ensuring that the contact part between the hinge and the section bar is sealed by the rubber strip.

The improved high-energy-saving window for the passive house building, which consists of the window frame and the inward opening sash, has the beneficial effects that as the heat insulation section of the window is as high as 95mm, the window frame, the inward opening sash, the multi-cavity rubber strip, the cavity filled with polyurethane foam and other matched facilities form the integrated window, so that the whole window has good wind pressure resistance, high air tightness and water tightness, excellent heat insulation performance, good energy-saving and noise-reducing effects, and the appearance of the whole window is streamline, beautiful, luxurious and high-grade.

The utility model ideally solves the problems of heat insulation, energy saving, noise reduction, high wind pressure resistance, good air tightness and water tightness, luxury atmosphere, simple and convenient operation and the like of the inward opening door and window. The inner window can be provided with 5+16+5+16+5 double LOW-E hollow toughened glass, and the window has the advantages of good stability, sealing property and waterproof property, good heat insulation and sound insulation effects, safety and reliability. The problems of heat insulation, energy saving, noise reduction, high wind pressure resistance, good air tightness and water tightness and the like of an inward casement door and window of a passive building are ideally solved, the technical task to be solved by the utility model is completed, and the market needs are met.

Claims (3)

1. A high energy-saving window for passive building construction comprises a window frame; a mullion is arranged in the middle of the window frame; hollow toughened glass and an inward opening sash are arranged between the window frame and the mullion; a frame pressing line is arranged on the periphery of the indoor side of the hollow toughened glass, and a pressing line adhesive tape is arranged between the frame pressing line and the hollow toughened glass; a sealing rubber strip is arranged at the outer diameter of the inner side of the inward opening fan chamber; the periphery of the inner side of the inner opening fan chamber is provided with an inner opening fan pressing line; the inward opening sash is movably and inward connected with the window frame through a hinge;

the method is characterized in that:

waterproof rubber strips used for being in sealing butt joint with the outer diameter of the inward opening sash are respectively arranged at the inner diameters of the window frame and the mullion; the outer diameter of the inward opening sash is respectively provided with a heat insulation strip which is used for being in sealing butt joint with the inner diameters of the window frame and the mullion;

the window frame, the mullion and the cavity of the inward opening sash are respectively provided with a heat preservation filler;

the window frame, well club with interior division of casement is formed by indoor side part and outdoor side part equipment.

2. The high energy saving window for passive housing construction as claimed in claim 1, wherein: the bottom of the window frame is provided with a drain hole, and the outdoor side of the drain hole is correspondingly provided with a drain port cover.

3. The high energy saving window for passive housing construction as claimed in claim 1, wherein: the heat-insulating filler is a polyurethane foaming agent.

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