CN212317754U - Structure of aluminum profile double-layer energy-saving sunshade integrated window - Google Patents

Abstract

The utility model relates to a building door and window technical field just discloses a structure of integrative window of double-deck energy-conserving sunshade of aluminium alloy. This structure of integrative window of energy-conserving sunshade of aluminium alloy bilayer, including window frame, well club, interior division of fan, outer division of fan, glass conversion frame, glass line ball, sunshade tripe and integrative well club are all installed inside the window frame in addition. This structure of integrative window of double-deck energy-conserving sunshade of aluminium alloy, double-deck window can the synchronous linkage, can play thermal-insulated, keep warm and give sound insulation, double-deck window's aggregate unit's mounting method is simple in addition, only need carry out necessary maintenance and restoration back to original exterior window, with first window and second window respectively with double-deck window's aggregate unit be connected can, repair construction progress has been accelerated, because inwardly opened window and outwardly opened window can deviate from, make two-deck window independently open and close, in order to conveniently clean the interior face of double-deck window.

Description

Structure of aluminum profile double-layer energy-saving sunshade integrated window

Technical Field

The utility model relates to a building door and window technical field specifically is a structure of integrative window of double-deck energy-conserving sunshade of aluminium alloy.

Background

The door and window are important components in the building envelope system, and are one of essential components of all buildings, and the door and window are important components of the building shape, so that the shape, size, proportion, arrangement, color, shape and the like of the door and window have great influence on the overall shape of the building. With the development of economy, the living standard of people is gradually improved, and the requirement on the comfort of life is higher and higher. Particularly, with the higher energy-saving requirement of the country, people have stronger awareness of energy saving of doors and windows.

The window frame adopts an integrated structural design, changes the traditional mode of needing to install two windows, is simpler and more convenient to install, can also add electric or manual sun-shading shutters between the two layers of windows, presents an integrated structure, and has more excellent appearance effect and practical effect.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art, the utility model provides a structure of the integrative window of double-deck energy-conserving sunshade of aluminium alloy possesses advantages such as simple and convenient and the heat preservation sound insulation is effectual of installation, has solved the installation difficulty and has kept warm to give sound insulation the poor problem of effect.

The utility model provides a technical scheme that its technical problem adopted is: the utility model provides a structure of integrative window of energy-conserving sunshade of aluminium alloy bilayer, includes window frame, well club, interior division of window, outer division of window, glass conversion frame, glass line ball, sunshade tripe and integrative well club are all installed inside the window frame.

The window frame includes the first aluminium alloy of window frame, the first aluminium alloy one side fixed mounting of window frame has the first heat insulating strip of window frame, the one end fixed mounting that the first aluminium alloy of window frame was kept away from to the first heat insulating strip of window frame has window frame second aluminium alloy, the one end fixed mounting that the first heat insulating strip of window frame was kept away from to window frame second aluminium alloy has the heat insulating strip of window frame second, the window frame third aluminium alloy is kept away from to the heat insulating strip of window frame second.

Club first aluminium alloy in an organic whole, club first aluminium alloy one side fixed mounting has the first heat insulating strip of club in, the one end fixed mounting that the first aluminium alloy of club was kept away from to the first heat insulating strip of club has well club second aluminium alloy, the one end fixed mounting that the first heat insulating strip of club was kept away from to well club second aluminium alloy has the heat insulating strip of club second in, well club third aluminium alloy is kept away from to the heat insulating strip of club second.

Furthermore, the window frame is connected into a whole by the first aluminium alloy of window frame, the second aluminium alloy of window frame, the third aluminium alloy of window frame through the first heat insulating strip of window frame, the second heat insulating strip of window frame.

Further, the club in an organic whole is connected into an organic whole by first aluminium alloy of club, club second aluminium alloy, club third aluminium alloy through first heat insulating strip of club, the heat insulating strip of club second.

Furthermore, a reinforcing support rib is arranged on the lower surface of the second aluminum profile of the window frame.

Further, the integral muntin can be selectively assembled as required.

The utility model has the advantages that:

1. the structure of the aluminum profile double-layer energy-saving sunshade integrated window is convenient to install, the installation method of the linkage device of the double-layer window is simple, the first window and the second window are respectively connected with the linkage device of the double-layer window only after necessary maintenance and repair are carried out on the original outer window, repair construction progress is accelerated, labor cost is saved, and meanwhile, energy loss can be greatly reduced due to improvement of energy-saving effect in the using process, and use cost can be further reduced.

2. This structure of the integrative window of double-deck energy-conserving sunshade of aluminium alloy can insulate against heat, keep warm and give sound insulation, and double-deck window can the synchronization linkage, can open simultaneously, close to reach the effect that keeps warm, insulate against heat, give sound insulation and environmental protection, promoted the energy-conserving effect of original building greatly.

3. This structure of the integrative window of double-deck energy-conserving sunshade of aluminium alloy, convenient cleanness, inwardly opened window and swinging-out casement window can take off for two-layer window can independently open and close, thereby very easily with inwardly opened window and swinging-out casement window separately, clean with the convenient interior face of falling to double-deck window.

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.

FIG. 1 is a left side view of the structure of the present invention;

fig. 2 is a schematic diagram of a left view of a first muntin structure of the present invention.

Description of reference numerals: 1-window frame, 101-window frame first aluminum profile, 102-window frame first heat insulation strip, 103-window frame second aluminum profile, 104-window frame second heat insulation strip, 105-window frame third aluminum profile, 2-mullion, 3-inward sash, 4-outward sash, 5-glass conversion frame, 6-glass pressing line, 7-sun-shading shutter, 8-integrated mullion, 801-mullion first aluminum profile, 802-mullion first heat insulation strip, 803-mullion second aluminum profile, 804-mullion second heat insulation strip, 805-mullion third aluminum profile.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

Referring to fig. 1-2, a structure of an aluminum profile double-layer energy-saving sun-shading integrated window comprises a window frame 1, a mullion 2, an inward opening sash 3, an outward opening sash 4, a glass transition frame 5, glass press lines 6, sun-shading shutters 7 and an integrated mullion 8, wherein the window frame 1 is used for being embedded into a wall body and playing a role of fixing, the mullion 2 is used for dividing the splicing frame, so that the strength of the window frame 1 meets requirements, the inward opening sash 3 can be inward opened, the outward opening sash 4 can be outward opened, the glass transition frame 5 is used for converting the opening direction of the inward opening sash 3 and the outward opening sash 4, the glass press lines 6 are used for fixing glass inside the inward opening sash 3 and the outward opening sash 4, the sun-shading shutters 7 are used for lowering down through pull ropes to shade sunlight when the sunlight is large, club 8 can be selected to install one or more according to the size of window form in an organic whole, plays support and fixed action, and club 2, interior division of 3, the outer division of 4, glass conversion frame 5, glass line ball 6, sunshade tripe 7 and club 8 in an organic whole are all installed inside window frame 1.

The window frame 1 comprises a window frame first aluminum section bar 101, a window frame first heat insulation strip 102 is fixedly installed on one side of the window frame first aluminum section bar 101, a window frame second aluminum section bar 103 is fixedly installed on one end, away from the window frame first aluminum section bar 101, of the window frame first heat insulation strip 102, a reinforcing support rib is arranged on the lower surface of the window frame second aluminum section bar 103, a window frame second heat insulation strip 102 is fixedly installed on one end, away from the window frame first heat insulation strip 102, of the window frame second heat insulation strip 102, away from a window frame third aluminum section bar 105, the window frame 1 is formed by connecting the window frame first aluminum section bar 101, the window frame second aluminum section bar 103 and the window frame third aluminum section bar 105 into a whole through the window frame first, the window frame 1 can be assembled by connecting the window frame first aluminum profile 101, the window frame second aluminum profile 103, and the window frame third aluminum profile 105 via the window frame first heat insulating strip 102 and the window frame second heat insulating strip 104.

The integrated mullion 8 comprises a mullion first aluminum section 801, a mullion first heat insulation strip 802 is fixedly installed on one side of the mullion first aluminum section 801, a mullion second aluminum section 803 is fixedly installed at one end, far away from the mullion first aluminum section 808, of the mullion first heat insulation strip 802, a mullion second heat insulation strip 802 is fixedly installed at one end, far away from the mullion first heat insulation strip 802, of the mullion second aluminum section 803, the mullion second heat insulation strip 802 is far away from the mullion third aluminum section 805, the integrated mullion 8 is formed by connecting the mullion first aluminum section 801, the mullion second aluminum section 803 and the mullion third aluminum section 805 into a whole through the mullion first heat insulation strip 802 and the mullion second heat insulation strip 804, the mullion first aluminum section 801, the mullion second aluminum section 803 and the mullion third aluminum section 805 can be assembled into a whole through the mullion first heat insulation strip 802 and the mullion second heat insulation strip 804 according to needs, the mullion 8 can be selectively assembled into a mullion 8, one or more of the integrated mullions 8 can be installed according to the size of the window.

When in use, the first aluminum section 101 of the window frame, the second aluminum section 103 of the window frame and the third aluminum section 105 of the window frame are firstly connected into a window frame 1 through the first heat-insulating strip 102 of the window frame and the second heat-insulating strip 104 of the window frame, then the other first aluminum section 101 of the window frame, the second aluminum section 103 of the window frame and the third aluminum section 105 of the window frame are connected into another window frame 1 through the first heat-insulating strip 102 of the window frame and the second heat-insulating strip 104 of the window frame, then the two window frames 1 are embedded into a wall body in a relatively parallel way, then the mullions 2, the inner opening sash 3, the outer opening sash 4, the glass conversion frame 5, the glass pressing lines 6 and the sun-shading shutters 7 are assembled in the window frame of the inner opening sash 3 and the outer opening sash 4 one by one, then the glass pressing lines 6 are used for fixing the glass, if the window is bigger, one or more mullions 8 of the, the sun-shading shutter 7 can be lowered for shading sun.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (5)

1. The utility model provides a structure of integrative window of energy-conserving sunshade of aluminium alloy bilayer, includes window frame (1), well club (2), interior division of casement (3), outer division of casement (4), glass conversion frame (5), glass line ball (6), sunshade tripe (7) and integrative well club (8), its characterized in that: the mullion (2), the inward opening sash (3), the outward opening sash (4), the glass conversion frame (5), the glass pressing line (6), the sun-shading shutter (7) and the integrated mullion (8) are all arranged inside the window frame (1);

the window frame (1) comprises a window frame first aluminum section (101), a window frame first heat insulation strip (102) is fixedly installed on one side of the window frame first aluminum section (101), a window frame second aluminum section (103) is fixedly installed at one end, far away from the window frame first aluminum section (101), of the window frame first heat insulation strip (102), a window frame second heat insulation strip (104) is fixedly installed at one end, far away from the window frame first heat insulation strip (102), of the window frame second aluminum section (103), and the window frame second heat insulation strip (104) is far away from a window frame third aluminum section (105);

an organic whole mullion (8) comprises a first aluminum section (801) of mullion, one side of the first aluminum section (801) of mullion is fixedly provided with a first heat insulation strip (802) of mullion, one end of the first heat insulation strip (802) of mullion, which is far away from the first aluminum section (801), of mullion is fixedly provided with a second aluminum section (803), one end of the second aluminum section (803), which is far away from the first heat insulation strip (802), of mullion is fixedly provided with a second heat insulation strip (804), and the second heat insulation strip (804) of mullion is far away from a third aluminum section (805) of mullion.

2. The structure of the aluminum profile double-layer energy-saving sunshade integrated window as claimed in claim 1, is characterized in that: the window frame (1) is formed by connecting a window frame first aluminum section (101), a window frame second aluminum section (103) and a window frame third aluminum section (105) into a whole through a window frame first heat insulation strip (102) and a window frame second heat insulation strip (104).

3. The structure of the aluminum profile double-layer energy-saving sunshade integrated window as claimed in claim 1, is characterized in that: the integrated muntin (8) is formed by connecting a muntin first aluminum profile (801), a muntin second aluminum profile (803) and a muntin third aluminum profile (805) into a whole through a muntin first heat insulation strip (802) and a muntin second heat insulation strip (804).

4. The structure of the aluminum profile double-layer energy-saving sunshade integrated window as claimed in claim 1, is characterized in that: and a reinforcing support rib is arranged on the lower surface of the second aluminum profile (103) of the window frame.

5. The structure of the aluminum profile double-layer energy-saving sunshade integrated window as claimed in claim 1, is characterized in that: the unitary mullion (8) can be selectively assembled as desired.

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