CN210714342U - Passive ultralow-energy-consumption door and window structure - Google Patents

Abstract

A fixed frame strip is fixed in a door and window frame, a door leaf opening is formed by the fixed frame strip and the door and window frame on one side, a door leaf frame is installed in the door leaf opening in a turnover mode, insulating glass is installed in the door leaf frame, insulating glass is installed in other areas formed by the fixed frame strip and the door and window frame, a first door and window section bar is adopted by the door and window frame, a second door and window section bar is adopted by the fixed frame strip, a third door and window section bar is adopted by the frame of the door leaf frame, a steel lining is arranged in the third door and window section bar, an inner connecting portion extends inwards towards one outdoor side of the third door and window section bar, an outer connecting portion extends outwards towards one indoor side of the third door and window section bar, a glass pressing strip is fixedly clamped inside one indoor side of the third door and window section bar, and the insulating. The heat insulation effect reduces indoor energy consumption, reduces heat exchange through doors and windows indoors and outdoors, is more convenient to assemble the doors and windows, and improves the production and manufacturing efficiency.

Description

Passive ultralow-energy-consumption door and window structure

Technical Field

The utility model relates to a door and window technical field, especially a passive form ultralow energy consumption door and window structure.

Background

The passive door and window mainly comprises door and window profiles, glass forms, hardware and heat-insulating sealing strips. The door and window section bar is mainly used for manufacturing and processing a door and window frame body by using a plastic steel section bar, the configured glass is vacuum Low-E sunshade type fully-toughened glass, the hardware and the heat insulation sealing strip are used for assisting a passive door and window by using products which are preferably selected in the door and window industry, and the high-standard energy-saving door and window and door and window installation requirements of a passive room are met by using the high-configuration materials.

The passive door and window mainly adopts three layers of glass and two hollow layers formed between the three layers of glass, the number of the layers of the glass is increased, and the window section bar is thickened, so that the quality of the door and window is increased, and the installation difficulty of the passive door and window is increased. The installation accuracy of passive door and window also seriously influences the heat insulation effect of the door and window.

SUMMERY OF THE UTILITY MODEL

To the above situation, in order to overcome the defects of the prior art, the utility model aims at providing a passive ultra-low energy consumption door and window structure, structural design is reasonable, and the equipment is convenient and the precision is high, thermal-insulated effectual.

The passive ultra-low energy consumption door and window structure comprises a door and window frame body and is characterized in that a fixed frame strip is fixed in the door and window frame body, the fixed frame strip and the door and window frame body on one side form a door leaf opening, the door leaf opening is provided with the door leaf frame body in a turnover mode, insulating glass is arranged in the door leaf frame body, other areas formed by the fixed frame strip and the door and window frame body are provided with the insulating glass, the frame of the door and window frame body adopts a first door and window section bar, the fixed frame strip adopts a second door and window section bar, a steel lining is arranged in the first door and window section bar, one side of the first door and window section bar facing outdoors is provided with a connecting part extending into the door and window frame body, two sides of one side of the second door and window section bar facing outdoors extend outwards to form the connecting part, the frame of the door and window frame body adopts a third door and window section bar, the side of the third door and window section bar facing the outdoor extends inwards to form an inner connecting part, the side of the third door and window section bar facing the indoor extends outwards to form an outer connecting part, a glass bead is clamped and fixed in one side of the third door and window section bar facing the indoor space, heat-insulating glass is fixed between the glass bead and the inner connecting part, a sealing strip is arranged between the heat-insulating glass and the inner connecting part, the door comprises a door leaf opening, a door frame body and a door leaf opening, wherein the door leaf opening is formed by a first door and window section bar and a second door and window section bar, the door leaf opening is formed by a door leaf opening and a door leaf opening, the door leaf opening is formed by a door leaf section bar and a door leaf section bar, the door leaf opening is formed by a door leaf section bar and a door leaf.

Preferably, a sealing strip fixed on the outer connecting portion is arranged between the outer connecting portion of the door leaf frame body and the first door and window section bar or the second door and window section bar, and a sealing strip fixed on the connecting portion of the first door and window section bar or the second door and window section bar is arranged between the connecting portion of the first door and window section bar or the second door and window section bar around the door leaf opening and the third door and window section bar forming the door and window frame body.

Preferably, the first door and window section bar or the second door and window section bar is provided with a clamping groove for installing the glass pressing strip, and the third door and window section bar is provided with a clamping groove for installing the glass pressing strip.

Preferably, the heat-insulating glass is of a three-layer glass and two-layer hollow structure, the hollow layer is vacuumized, glass cushion blocks are arranged on the periphery of the heat-insulating glass, and protrusions facing the heat-insulating glass are arranged at the end parts of the glass pressing strips.

Preferably, the connecting portion, the inner connecting portion and the outer connecting portion are provided with sealing clamping grooves for fixing the sealing strips.

The utility model has the advantages that: the heat insulation effect reduces indoor energy consumption, reduces heat exchange through doors and windows indoors and outdoors, is more convenient to assemble the doors and windows, and improves the production and manufacturing efficiency.

Drawings

Fig. 1 is an external schematic view of the present invention.

Fig. 2 is a schematic view of fig. 1 along a-a direction according to the present invention.

Fig. 3 is a schematic view of fig. 2 along the direction B-B according to the present invention.

Detailed Description

The following describes the embodiments of the present invention in further detail with reference to the accompanying drawings.

As shown in fig. 1 to 3, a passive ultra-low energy consumption door and window structure comprises a door and window frame body 1, and is characterized in that a fixed frame strip 2 is fixed in the door and window frame body 1, the fixed frame strip 2 and the door and window frame body 1 on one side form a door opening, the door opening is provided with the door and window frame body 3 which can be opened and closed in a turnover manner, heat-insulating glass 4 is arranged in the door and window frame body 3, other areas formed by the fixed frame strip 2 and the door and window frame body 1 are provided with the heat-insulating glass 4, a first door and window section bar 5 is adopted for the frame of the door and window frame body 1, a second door and window section bar 6 is adopted for the frame strip 2, a steel lining 7 is arranged inside the first door and window section bar 5, a connecting part 8 extending into the door and window frame body 1 is arranged on one side of the first door and window section bar 5 facing outdoors, a steel lining 7 is arranged inside, the frame of the door leaf frame body 3 adopts a third door and window section bar, a steel lining 7 is arranged in the third door and window section bar, an inner connecting part 9 extends inwards from one side of the third door and window section bar facing outdoors, an outer connecting part 10 extends outwards from one side of the third door and window section bar facing indoors, a glass pressing strip 11 is clamped and fixed inside one side of the third door and window section bar facing indoors, heat-insulating glass 4 is fixed between the glass pressing strip 11 and the inner connecting part 9, a sealing strip 12 is arranged between the heat-insulating glass 4 and the inner connecting part 9, a connecting part 8 of the first door and window section bar 5 or the second door and window section bar 6 around the door leaf opening is contacted with the door leaf frame body 1, the outer connecting part 10 of the third door and window section bar is contacted with the first door and window section bar 5 or the second door and window section bar 6, the first door and window section bar 5 and the second door and window, insulating glass 4 is arranged between the glass pressing strip 11 and a connecting part 8 of the first door and window section bar 5 or the second door and window section bar 6 on the periphery of the non-door leaf opening, and a sealing strip 12 is arranged between the connecting part 8 and the insulating glass 4.

When assembling doors and windows, a door and window frame body 1 is assembled by a first door and window section bar 5 and a second door and window section bar 6 through hardware, then heat-insulating glass 4 is installed, then a glass pressing strip 11 is installed to fix the heat-insulating glass 4, a door leaf frame body 3 is assembled by a third door and window section bar, then the door leaf frame body 3 is installed on the door and window frame body 1, and then the heat-insulating glass 4 is installed on the door leaf frame body 3. The first door and window section bar 5, the second door and window section bar 6 and the third door and window section bar are all plastic steel section bars, and the interior is of a hollow structure, so that the quality of doors and windows is reduced, the heat insulation effect of the doors and windows is improved, and the energy consumption of a room is reduced.

A sealing strip 12 fixed on the outer connecting portion 10 is arranged between the outer connecting portion 10 of the door leaf frame body 3 and the first door and window section bar 5 or the second door and window section bar 6, and a sealing strip 12 fixed on the connecting portion 8 of the first door and window section bar 5 or the second door and window section bar 6 is arranged between the connecting portion 8 of the first door and window section bar 5 or the second door and window section bar 6 around the door leaf opening and the third door and window section bar forming the door and window frame body 1. The sealing strip 12 can well reduce the gap between the door leaf frame body 3 and the door leaf opening, and achieve a good heat preservation effect.

The first door and window section bar 5 or the second door and window section bar 6 are provided with clamping grooves 13 for mounting the glass pressing strips 11, and the third door and window section bar is provided with clamping grooves 13 for mounting the glass pressing strips 11. The clamping groove 13 structure is arranged, so that the first door and window section bar 5, the second door and window section bar 6, the third door and window section bar and the glass pressing strip 11 can be conveniently installed.

The heat-insulating glass 4 is of a three-layer glass and two-layer hollow structure, the hollow layer is vacuumized, glass cushion blocks 16 are arranged on the periphery of the heat-insulating glass 4, and protrusions 14 facing the heat-insulating glass 4 are arranged at the end portions of the glass pressing strips 11. The bulge 14 on the glass bead 11 is convenient for installing and firmly fixing the insulating glass 4, and the insulating glass 4 is prevented from loosening.

The connecting portion 8, the inner connecting portion 9 and the outer connecting portion 10 are all provided with sealing clamping grooves 15 for fixing the sealing strips 12. Seal slot 15 facilitates the installation and securement of seal strip 12.

One side of the door leaf frame body 3 and the door and window frame body 1 rotate relatively through a hinge, and a buckle structure is arranged between the other side of the door leaf frame body 3 and the fixed frame strip 2.

The utility model has the advantages that: the heat insulation effect reduces indoor energy consumption, reduces heat exchange through doors and windows indoors and outdoors, is more convenient to assemble the doors and windows, and improves the production and manufacturing efficiency.

The above-mentioned embodiments are not intended to limit the scope of the present invention, and various modifications and improvements made by those skilled in the art without departing from the design concept of the present invention should be included in the protection scope defined by the claims of the present invention.

Claims (5)

1. A passive ultra-low energy consumption door and window structure comprises a door and window frame body (1) and is characterized in that a fixed frame strip (2) is fixed in the door and window frame body (1), the fixed frame strip (2) and the door and window frame body (1) on one side form a door leaf opening, the door leaf opening is provided with a door and window frame body (3) in a turnover and opening mode, heat-insulating glass (4) is arranged in the door and window frame body (3), other areas formed by the fixed frame strip (2) and the door and window frame body (1) are provided with heat-insulating glass (4), the frame of the door and window frame body (1) adopts a first door and window section bar (5), the fixed frame strip (2) adopts a second door and window section bar (6), a steel lining (7) is arranged inside the first door and window section bar (5), a connecting part (8) extending towards the outdoor side of the first door and window section bar (5) to the inside of the door and window frame body (, the door is characterized in that both sides of one outdoor side of a second door and window profile (6) extend outwards to form connecting parts (8), the frame of the door leaf frame body (3) adopts a third door and window profile, a steel lining (7) is arranged in the third door and window profile, one outdoor side of the third door and window profile extends inwards to form an inner connecting part (9), one indoor side of the third door and window profile extends outwards to form an outer connecting part (10), a glass pressing strip (11) is clamped and fixed in one indoor side of the third door and window profile, a heat-insulating glass (4) is fixed between the glass pressing strip (11) and the inner connecting part (9), a sealing strip (12) is arranged between the heat-insulating glass (4) and the inner connecting part (9), the connecting parts (8) of the first door and window profile (5) or the second door and window profile (6) around the door opening are in contact with the door and window frame body (1), and the outer connecting part (10) of the third door and window profile is in contact with the, the first door and window section bar (5) and the second door and window section bar (6) which enclose into the non-door leaf opening area are towards the indoor and the inner side of the non-door leaf opening are clamped and fixed with a glass bead (11), heat-insulating glass (4) is arranged between the glass bead (11) and a connecting part (8) of the first door and window section bar (5) or the second door and window section bar (6) on the periphery of the non-door leaf opening, and a sealing strip (12) is arranged between the connecting part (8) and the heat-insulating glass (4).

2. The passive ultra-low energy consumption door and window structure according to claim 1, wherein a sealing strip (12) fixed on the external connecting portion (10) is arranged between the external connecting portion (10) of the door leaf frame (3) and the first door and window profile (5) or the second door and window profile (6), and a sealing strip (12) fixed on the connecting portion (8) of the first door and window profile (5) or the second door and window profile (6) around the door leaf opening is arranged between the connecting portion (8) of the first door and window profile (5) or the second door and window profile (6) and the third door and window profile composing the door and window frame (1).

3. Passive ultra-low energy consumption door and window structure according to claim 1, characterized in that the first door and window profile (5) or the second door and window profile (6) is provided with a clamping groove (13) for mounting a glazing bead (11), and the third door and window profile is provided with a clamping groove (13) for mounting a glazing bead (11).

4. The passive ultra-low energy consumption door and window structure as claimed in claim 1 or 2, wherein the insulating glass (4) is a three-layer glass and two-layer hollow structure, the hollow layer is vacuumized, glass cushion blocks (16) are arranged around the insulating glass (4), and protrusions (14) facing the insulating glass (4) are arranged at the end parts of the glass battens (11).

5. The passive ultra-low energy consumption door and window structure according to claim 2, wherein the connecting portion (8), the inner connecting portion (9) and the outer connecting portion (10) are provided with sealing slots (15) for fixing the sealing strips (12).

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