CN115045590A - Detachable integrated sun-shading window and energy-saving outer window transformation method - Google Patents

Abstract

The invention discloses a detachable integrated sun-shading window and an energy-saving outer window transformation method, belongs to the technical field of outer windows, and aims to reduce the cost of the sun-shading window. The sunshade window includes framework, line ball structure and glass structure, and the glass structure includes first glass, cavity glass and U type connecting piece, is equipped with sunshade tripe and elasticity heat preservation frame between first glass and the cavity glass, and elasticity heat preservation frame bonds with first glass, is equipped with a plurality of fixed parts in the bonding glue, and fixed part is inserted to the one end of U type connecting piece, and the other end inserts in cavity glass's sealed glue. Through set up a plurality of fixed parts around first glass to insert fixed part and cavity glass's sealed glue respectively with easy dismounting's U type connecting piece's both ends, make cavity glass and first glass firmly link into an integrated entity, thereby make the dismantled and assembled glass structure after the combination, the convenience of dismouting and transportation improves, need not to throw away original cavity glass and framework, reduce cost.

Description

Detachable integrated sun-shading window and energy-saving outer window transformation method

Technical Field

The invention belongs to the technical field of external windows, and relates to a detachable integrated sun-shading window and an energy-saving external window transformation method.

Background

The hollow glass with the built-in sun-shading shutter is a product for mounting the sun-shading shutter in the hollow glass, has the advantages of cleanness, attractiveness, strong impact resistance, good safety, long service life and the like, can meet the mounting requirements of high-rise buildings, and can also meet the long-term use maintenance-free requirements. However, as shown in fig. 1, most of the built-in sun-shading louver hollow glass 320 in the current market is of a single-cavity structure, two layers of glass are fixed by a sealant 321, and although the cost of the built-in sun-shading louver hollow glass of the single-cavity structure is low, the heat insulation requirements of ultra-low energy consumption buildings and near-zero energy consumption buildings on external windows cannot be met. Therefore, the three-glass two-cavity built-in shutter hollow glass appears on the market, the outer, middle and inner three-layer glass forms two hollow cavities (an outer hollow cavity and an inner hollow cavity), and a sun-shading shutter curtain is arranged in one hollow cavity, so that the heat insulation effect of the shutter glass can be obviously improved.

However, since the sunshade blind with the built-in sunshade louver hollow glass and the transmission system are both installed inside the sealed hollow glass, when the louver blind or the transmission system is out of order, the maintenance cannot be performed on site, and only the hollow glass 320 can be replaced as a whole or returned to the factory for maintenance, which results in high maintenance cost.

In addition, when the cable pressing piece 400 of the existing external window is installed, the cable pressing piece is usually connected with the frame body 100 in a clamping mode, although the installation is convenient, the cable pressing piece also has some defects, such as the phenomenon of looseness easily occurs after long-time use, and also such as when the existing external window is energy-saving and modified, because the existing external window of the early building is mostly 50 series and 55 series casement windows, the installed glass is also mostly 5+9A +5 or 5+12A +5, if the three-layer hollow glass with better energy-saving performance or the energy-saving glass such as the built-in sun-shading shutter hollow glass and the like is replaced, even if the cable pressing piece 400 with the smallest thickness is adopted, the energy-saving glass is difficult to be installed in the existing external window of the building, and only the existing external window can be completely replaced after being dismantled, so that the application cost of the energy-saving and modification of the existing external window of the building is very high.

Disclosure of Invention

The invention provides a detachable integrated sun-shading window and an energy-saving outer window transformation method aiming at solving the problems in the prior art and aims to reduce the cost of the sun-shading window.

The invention is realized by the following steps:

the utility model provides a detachable integration sunshade window, includes framework, line ball structure and installs the glass structure in the framework, a serial communication port, the glass structure includes first glass, cavity glass and U type connecting piece, first glass with be equipped with the sunshade tripe between the cavity glass and enclose sunshade tripe elasticity heat preservation frame all around, elasticity heat preservation frame through bond glue with first glass bonds, be equipped with a plurality of fixed parts in the glue of bonding, the one end of U type connecting piece is inserted fixed part, the other end inserts in cavity glass's sealed glue.

The sun-shading shutter is an electric shutter, the first glass is located on the outer side of the electric shutter, and the hollow glass is located on the inner side of the electric shutter.

The sun-shading shutter is a magnetic control shutter, the first glass is located on the inner side of the electric shutter, the hollow glass is located on the outer side of the electric shutter, and the first glass is provided with an outer magnet sliding block to control the magnetic control shutter to swing.

And a plurality of convex strips are arranged on the surface of the hollow glass facing the elastic heat-insulating frame.

The pressing line structure is detachably mounted on the frame body, and comprises a connecting support piece, a fixing frame and a pressing line frame, wherein the connecting support piece is fixed on the frame body, the fixing frame is fixed on the connecting support piece, the fixing frame is abutted against the glass structure, the fixing frame and the frame body are clamped and fixed on the glass structure, and the pressing line frame is simultaneously fixed with the frame body and the fixing frame in a clamping manner.

Before the fixed frame is fixed, the inner side surface of the glass structure protrudes inwards from the connecting support piece.

The connecting support piece comprises a first connecting portion and a second connecting portion which are perpendicular to each other, the first connecting portion is fixed on the frame body through screws, and the second connecting portion is fixed with the fixing frame through screws.

One side of the fixing frame facing the wire pressing frame is provided with a protruding portion, a clamping portion is arranged on the wire pressing frame, a groove is formed in the clamping portion, and the groove is matched with the protruding portion in a clamping mode.

The recess is the big end up form, the shape of joint portion with the recess matches, fixed frame pass through the sealing strip with connect support piece and glass structure butt.

An energy-saving outer window transformation method is characterized by comprising the following steps:

dismantling the wire pressing piece of the energy-saving outer window, and dismantling the hollow glass;

horizontally placing the first glass, and bonding the elastic heat-insulating frame on the first glass by using bonding glue;

arranging a plurality of fixing components on the periphery of the upper surface of the first glass and embedding the fixing components into the bonding glue;

installing the sun-shading shutter on the elastic heat-preservation frame;

the hollow glass is placed on the upper parts of the sun-shading louver and the elastic heat-preservation frame;

inserting one end of the U-shaped connecting piece into the fixing part, and inserting the other end of the U-shaped connecting piece into the sealant of the hollow glass to form an integrated sunshade glass structure;

fixing a connection support to the frame body according to the thickness of the glass structure;

mounting a glass structure to the frame;

fixedly connecting the sealing strip and the fixing frame to the connecting support member in sequence;

and installing the wire pressing frame on the frame body and the fixed frame.

When the sun-shading shutter is an electric shutter, the first glass is installed towards the outer side of the energy-saving outer window;

when the sun-shading shutter is a magnetic control shutter, the first glass is installed towards the inner side of the energy-saving outer window.

The hollow glass and the first glass are compressed, and then the two ends of the U-shaped connecting piece are respectively inserted into the fixing part and the sealant.

The invention has the beneficial effects that:

(1) the periphery of the first glass is provided with the plurality of fixing parts, and two ends of the U-shaped connecting piece which is convenient to disassemble and assemble are respectively inserted into the fixing parts and the sealant of the hollow glass, so that the hollow glass and the first glass are firmly connected into a whole, the assembled and disassembled three-glass two-cavity sun-shading shutter glass structure is greatly improved in convenience of disassembly and assembly and transportation, the original hollow glass and a frame body are not required to be thrown away, and the cost is reduced;

(2) the line pressing structure adopts a threaded connection mode of the fixing frame and the connecting support to firmly fix the detachable three-glass two-cavity sun-shading louver glass structure on the outer window, the glass structure does not need to be fixed in a mode of independently clamping a line pressing piece on the frame body, the thickness of the line pressing structure can be greatly reduced, the space for installing the detachable glass structure is obviously increased, the looseness phenomenon is not easy to occur after long-term use, the detachment is convenient, and the application cost of the detachable integrated sun-shading window is greatly reduced;

(3) the hollow glass and the first glass are connected by adopting a mode of combining the sealing glue of the U-shaped connecting piece and the hollow glass, and the hollow glass and the first glass are compressed by a line pressing structure in a threaded connection mode which is convenient to disassemble and assemble, so that the U-shaped connecting piece can firmly connect the hollow glass and the first glass without blocking the line pressing structure from compressing the first glass and the hollow glass, the disassembly and assembly and the maintenance can be carried out on site on the premise of better sealing performance of the disassembled and assembled glass structure, and the maintenance cost of the glass structure is greatly reduced;

(4) the sealing strips are arranged between the fixing frame and the connecting support piece as well as between the fixing frame and the glass structure, and the fixing frame and the connecting support piece are fixed through screws to compress the sealing strips, so that the air tightness and the heat insulation performance in the glass cavity are greatly improved, and the energy-saving performance of the sun-shading window is greatly improved;

(5) the line ball structure that utilizes the screw connected mode has thickness thinner, the installation is firm, easy dismounting's characteristics, hollow glass has firm characteristics with first glass is connected to U type connecting piece, with sunshade tripe direct mount between hollow glass and first glass, keep the hollow glass and the framework of original outer window, only increase sunshade tripe and first glass and change low cost's line ball structure, make the energy-conserving performance of existing outer window improve greatly, greatly reduced the application cost that the energy-conserving of existing outer window was reformed transform.

Drawings

FIG. 1 is a schematic structural view of a conventional exterior window;

FIG. 2 is a schematic structural view of the sunshade window;

FIG. 3 is an enlarged view of portion A of FIG. 2;

FIG. 4 is a schematic view of a glass structure with motorized sun shades;

FIG. 5 is a partial schematic view of a glass structure with motorized blinds;

FIG. 6 is a schematic view of a glass structure with magnetically controlled louvers;

FIG. 7 is a schematic structural view of a front sunshade window installed on a fixing frame;

fig. 8 is an enlarged view of a portion B in fig. 7.

Reference is made to the accompanying drawings in which: 100. a frame body; 200. a line pressing structure; 210. connecting a support member; 211. a first connection portion; 212. a second connecting portion; 220. a fixing frame; 221. a boss portion; 230. pressing a wire frame; 231. a clamping part; 232. a groove; 233. a hook; 234. a sealing groove; 235. a seal member; 240. a sealing strip; 300. a glass structure; 310. a first glass; 311. an inner magnet slide block; 320. hollow glass; 321. sealing glue; 322. a convex strip; 330. a U-shaped connecting piece; 340. sun-shading shutters; 350. an elastic heat-insulating frame; 360. bonding glue; 370. a fixing member; 400. and a wire pressing piece.

Detailed Description

The following detailed description of the embodiments of the present invention is provided in connection with the accompanying drawings for illustrating the embodiments of the present invention so that the technical solutions of the present invention can be understood and appreciated more easily. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The embodiment provides a detachable integrated sun-shading window, as shown in fig. 2-5, which includes a frame body 100, a line pressing structure 200 and a glass structure 300 installed on the frame body 100, where the glass structure 300 includes a first glass 310, a hollow glass 320 and a U-shaped connector 330, a sun-shading louver 340 and an elastic heat-preservation frame 350 enclosing the periphery of the sun-shading louver 340 are arranged between the first glass 310 and the hollow glass 320, the elastic heat-preservation frame 350 is bonded with the first glass 310 through a bonding glue 360, a plurality of fixing parts 370 are arranged in the bonding glue 360, one end of the U-shaped connector 330 is inserted into the fixing part 370, and the other end is inserted into a sealant 321 of the hollow glass 320. The elastic heat-insulating frame 350 is made of an elastic heat-insulating material, the fixing part 370 is made of a material which is easy to insert the U-shaped connecting piece 330, such as a polystyrene heat-insulating material or foamed plastic, and the U-shaped connecting piece 330 is made of metal or high-strength plastic.

The sealant 321 of the hollow glass 320 has elasticity, and after the first glass 310 and the hollow glass 320 are primarily fixed by the U-shaped connecting piece 330, the combined three-glass two-cavity glass structure 300 is very convenient to mount and transport, the three-glass two-cavity glass structure 300 is two cavities of three layers of glass, namely, the hollow glass 320 has two layers of glass, and the first glass 310 is three layers of glass. Since one end of the U-shaped connecting member 330 is inserted into the elastic sealant 321, the U-shaped connecting member 330 does not obstruct the press-fit between the first glass 310 and the insulating glass 320.

As shown in fig. 2, 4 and 5, the sun-shading louver 340 is an electric louver, the first glass 310 is located at the outer side of the electric louver, and the hollow glass 320 is located at the inner side of the electric louver. The electric louver is controlled by remote control, external light is isolated by the sun-shading louver 340, and residual heat is isolated by the hollow glass 320, so that heat transfer to the room is reduced, and the energy-saving effect of the glass structure 300 is improved. Taking fig. 2 as a view, the left side of the electric louver is the inner side, and the right side is the outer side.

As shown in fig. 6, the sun-shading louver 340 is a magnetic control louver, the first glass 310 is located on the inner side of the electric louver, the hollow glass 320 is located on the outer side of the electric louver, and an outer magnet slider is arranged on the first glass 310 to control the magnetic control louver to swing. Taking fig. 6 as a perspective view, the left side of the electric louver is the inner side, the right side is the outer side, the left side of the first glass 310 is the outer side, and the right side is the inner side. The inner side of the first glass 310 is provided with an outer magnet slide block to drive the magnetically controlled shutter to swing, and the inner magnet slide block 311 on the outer side of the first glass 310 drives the outer magnet slide block to move. Therefore, the inner magnet slide block 311 is close to the outer magnet slide block, the strength of the magnetic force influence of the inner magnet slide block and the outer magnet slide block is ensured, and the control stability is improved.

As shown in fig. 5, a plurality of convex strips 322 are arranged on the surface of the hollow glass 320 facing the elastic heat-insulating frame 350, and the convex strips 322 are bonded with the hollow glass 320 through a bonding glue 360, so that the sealing performance between the hollow glass 320 and the first glass 310 can be enhanced, and the risk of the elastic heat-insulating frame 350 being separated is reduced.

As shown in fig. 2 and 3, the wire pressing structure 200 is detachably mounted on the frame body 100, the wire pressing structure 200 includes a connection support 210, a fixing frame 220 and a wire pressing frame 230, the connection support 210 is fixed on the frame body 100, the fixing frame 220 is fixed on the connection support 210, the fixing frame 220 abuts against the glass structure 300, the fixing frame 220 and the frame body 100 clamp and fix the glass structure 300, and the wire pressing frame 230 is simultaneously fixed to the frame body 100 and the fixing frame 220 in a clamping manner.

As shown in fig. 7 to 8, before the fixing frame 220 is fixed, the inner side of the glass structure 300 protrudes inward from the connecting supporter 210. Like this when fixed frame 220, along with the locking gradually of screw, fixed frame 220 compresses tightly glass structure 300 gradually for seal structure on glass structure 300 and the framework 100 can closely laminate more, improves the leakproofness, also can make sealing strip 240 and glass structure form the inseparable contact improvement leakproofness more, thereby reinforcing sunshade window whole heat preservation effect. In addition, the insulating glass and the first glass can be better pressed, improving the integrity of the glass structure 300.

The connecting support members 210 are L-shaped, and a plurality of connecting support members 210 are disposed on an exterior window, in this embodiment, three connecting support members 210 are disposed on two vertical edges of the frame body 100. The connection support 210 includes a first connection portion 211 and a second connection portion 212 that are perpendicular to each other, the first connection portion 211 is fixed to the frame body 100 by a screw, and the second connection portion 212 is fixed to the fixing frame 220 by a screw.

The fixed frame 220 has bellying 221 towards one side of pressing wire frame 230, be equipped with joint portion 231 on the pressing wire frame 230, the last recess 232 that has of joint portion 231, recess 232 with the cooperation of bellying 221 joint. The protrusion 221 and the groove 232 are in interference fit. The groove 232 is in a small outside and a large inside, and the shape of the clamping portion 231 is matched with the groove 232 to realize clamping connection of the groove and the groove. The fixing frame 220 abuts against the connection supporter 210 and the glass structure 300 through the sealing strip 240. The connecting portion between the wire frame 230 and the frame 100 has a hook 233 clamped on the frame 100, and referring to fig. 3, the upper end of the wire frame 230 has a hook 233, the lower end of the wire frame has a sealing groove 234 facing the glass, and a sealing member 235 is disposed on the sealing groove 234 to abut against the glass, thereby forming a double seal together with the sealing strip.

The energy-saving outer window transformation method comprises the following steps:

s1, removing the wire pressing piece 400 of the energy-saving outer window, and removing the hollow glass 320; referring to fig. 1, the conventional energy-saving exterior window structure is shown in which the wire pressing member 400 is not used, and the frame body 100 and the hollow glass 320 can be continuously used.

S2, horizontally placing the first glass 310, and bonding the elastic heat-insulating frame 350 to the first glass 310 by using the bonding glue 360.

S3, a plurality of fixing members 370 are disposed around the upper surface of the first glass 310 and embedded in the adhesive 360.

S4, the sun-shading louver 340 is installed on the elastic heat-preservation frame 350.

S5, placing the hollow glass 320 on the upper parts of the sun-shading louver 340 and the elastic heat-preservation frame 350.

S6, inserting one end of the U-shaped connector 330 into the fixing member 370 and the other end into the sealant 321 of the hollow glass 320 to form the integrated sunshade glass structure 300. When the U-shaped connecting member 330U is installed in a factory, the hollow glass 320 and the first glass 310 are compressed, then the two ends of the U-shaped connecting member 330U are inserted into the fixing part 370 and the sealant 321, so that the glass structure 300 processed in the factory and the glass structure 300 installed on the frame body 100 at last are kept in good consistency, the fixing part 370 and the sealant 321 are prevented from being seriously deformed, the supporting effect of the U-shaped connecting member 330U on the integrated sunshade glass structure 300 can be improved, and the stability of the thickness of the glass structure 300 is ensured.

S7, fixing the connection support 210 to the frame body 100 according to the thickness of the glass structure 300. In order to press the insulating glass 320 and the first glass 310 better, the installation position of the connecting support 210 is preferably determined according to the thickness of the glass structure 300 and the installation position of the glass structure 300, that is, after the connecting support 210 and the glass structure 300 are installed, the inner side of the glass structure 300 protrudes from the inner side of the connecting support 210, and after the fixing frame 220 is fixed, the inner side of the glass structure 300 can be flush with the connecting support 210.

S8, mounting the glass structure 300 on the frame 100. When the sun-shading louver 340 is an electric louver, the first glass 310 is installed towards the outer side of the sun-shading window; when the sun-shading louver 340 is a magnetic control louver, the first glass 310 is installed towards the inner side of the sun-shading window.

S9, fixedly connecting the sealing strip and the fixing frame 220 to the connecting support 210 in sequence, so that the hollow glass and the first glass are pressed against each other.

S10, mounting the wire frame 230 on the frame body 100 and the fixing frame 220.

In this embodiment, original frame 100, original cavity glass 320 remain during the energy-conserving transformation of existing building exterior window, better line ball structure 200 and increase sunshade tripe 340 and glass, and the exterior window sunshade performance and the thermal insulation performance after the transformation can all improve greatly, and it is obviously lower to transform into this relative current whole change exterior window.

Claims (10)

1. The utility model provides a detachable integration sunshade window, includes framework (100), line ball structure (200) and installs glass structure (300) on framework (100), its characterized in that, glass structure (300) include first glass (310), cavity glass (320) and U type connecting piece (330), first glass (310) with be equipped with sunshade tripe (340) between cavity glass (320) and enclose sunshade tripe (340) elasticity heat preservation frame (350) all around, elasticity heat preservation frame (350) through gluing (360) with first glass (310) bond, be equipped with a plurality of fixed parts (370) in gluing (360), the one end of U type connecting piece (330) is inserted in fixed part (370), the other end inserts in sealed glue (321) of cavity glass (320).

2. A detachable integrated sun-shading window according to claim 1, wherein the sun-shading louver (340) is an electric louver, the first glass (310) is positioned at the outer side of the electric louver, and the hollow glass (320) is positioned at the inner side of the electric louver;

or the sun-shading shutter (340) is a magnetic control shutter, the first glass (310) is positioned on the inner side of the electric shutter, the hollow glass (320) is positioned on the outer side of the electric shutter, and an outer magnet sliding block is arranged on the first glass (310) to control the magnetic control shutter to swing.

3. A detachable integrated sunshade window according to claim 1, characterized in that a plurality of ribs (322) are provided on the surface of said insulating hollow glass (320) facing said elastic heat-insulating frame (350).

4. A detachable integrated sunshade window according to any of the above claims 1-3, wherein said pressing line structure (200) is detachably mounted on said frame body (100), said pressing line structure (200) comprises a connection support (210), a fixing frame (220) and a pressing line frame (230), said connection support (210) is fixed on said frame body (100), said fixing frame (220) is fixed on said connection support (210), said fixing frame (220) abuts against said glass structure (300), said fixing frame (220) and said frame body (100) clamp and fix said glass structure (300), said pressing line frame (230) is simultaneously fixed with said frame body (100) and said fixing frame (220) in a clamping manner.

5. A detachable integrated sunshade window according to claim 4, characterized in that said inner side of said glass structure (300) protrudes inwardly from said connection support (210) before said fixing frame (220) is fixed.

6. A detachable integrated sunshade window according to claim 4, characterized in that said connection support (210) comprises a first connection portion (211) and a second connection portion (212) perpendicular to each other, said first connection portion (211) being fixed to said frame body (100) by means of screws, said second connection portion (212) being fixed to said fixing frame (220) by means of screws.

7. A detachable integrated sun-shading window according to claim 4, wherein a protruding part (221) is arranged on one side of the fixing frame (220) facing the wire pressing frame (230), a clamping part (231) is arranged on the wire pressing frame (230), a groove (232) is arranged on the clamping part (231), and the groove (232) is in clamping fit with the protruding part (221);

recess (232) are outer little big-inside-out form, the shape of joint portion (231) with recess (232) match, fixed frame (220) pass through the sealing strip with connect support piece (210) and glass structure (300) butt.

8. An energy-saving outer window transformation method is characterized by comprising the following steps:

dismantling the wire pressing piece (400) of the energy-saving outer window, and dismantling the hollow glass (320);

horizontally placing the first glass (310), and bonding the elastic heat-insulating frame (350) on the first glass (310) by using bonding glue (360);

arranging a plurality of fixing components (370) around the upper surface of the first glass (310) and embedding the fixing components into the adhesive glue (360);

installing the sun-shading shutter (340) on the elastic heat-preservation frame (350);

placing the hollow glass (320) on the upper parts of the sun-shading louver (340) and the elastic heat-preservation frame (350);

inserting one end of a U-shaped connecting piece (330) into the fixing part (370), and inserting the other end of the U-shaped connecting piece into the sealant (321) of the hollow glass (320) to form an integrated sunshade glass structure (300);

fixing the connection support (210) to the frame (100) according to the thickness of the glass structure (300);

mounting a glass structure (300) to the frame (100);

fixedly connecting the sealing strip and the fixing frame (220) to the connecting support (210) in sequence;

a wire frame (230) is attached to the frame body (100) and the fixing frame (220).

9. The energy-saving outer window reforming method according to claim 8, characterized in that when the sun-shading louver (340) is an electric louver, the first glass (310) is installed towards the outer side of the energy-saving outer window;

when the sun-shading shutter (340) is a magnetic control shutter, the first glass (310) is installed towards the inner side of the energy-saving outer window.

10. The energy-saving exterior window reforming method as claimed in claim 8, wherein the hollow glass (320) and the first glass (310) are compressed, and then both ends of the U-shaped connecting member (330) are inserted into the fixing member (370) and the sealant (321), respectively.

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