CN215671905U - Heat insulation window structure - Google Patents

Abstract

The application relates to the technical field of aluminum alloy windows, in particular to a heat insulation window structure. The heat insulation window structure comprises glass, a first pressing line, a second pressing line and a window frame assembly; fixed connection can be dismantled with the window frame subassembly to first line ball, and fixed connection can be dismantled with the window frame subassembly to the second line ball, and two light-transmitting surfaces of glass respectively with first line ball and second line ball butt. The application provides a thermal-insulated window structure has thermal-insulated effect, can realize the convenient conversion of the indoor outer installation of glass, has the universality to different demands.

Description

Heat insulation window structure

Technical Field

The application relates to the technical field of aluminum alloy windows, in particular to a heat insulation window structure.

Background

The aluminum alloy window has the characteristics of attractive appearance, good sealing performance, high strength and the like, and is widely applied to the field of constructional engineering. In order to ensure the safety and firmness of glass installation, glass is generally fixed by glass pressing lines in the design of the aluminum alloy window.

Glass beads are typically installed both externally and internally. The installation method of putting glass into a hole of a window frame and pressing a pressing line from the outside to the inside of the window frame to press the glass is called as exterior installation. Accordingly, the installation method in which the pressing line is pressed against the glass from the inside to the outside after the glass is placed in the opening of the window frame is called interior installation. The cost is low by adopting an external mounting mode, but the installation at a high layer is inconvenient; the glass is convenient to install and replace by adopting a built-in mode, but the cost is relatively high. For different installation modes, different glass pressing lines and window frames need to be designed to meet the requirements in the related technology, and the universality is not high.

SUMMERY OF THE UTILITY MODEL

In order to improve the problem of non-universality presented in the background art, the application provides a heat insulation window structure.

The application provides a thermal-insulated window structure adopts following technical scheme:

a heat insulation window structure comprises glass, a first pressing line, a second pressing line and a window frame assembly; the first pressing line and the window frame assembly can be fixedly connected in a detachable mode, the second pressing line and the window frame assembly can be fixedly connected in a detachable mode, and two light-transmitting faces of the glass are abutted to the first pressing line and the second pressing line respectively.

By adopting the technical scheme, the first pressing line is fixedly connected to the window frame assembly in advance, and then the fixed glass and the second pressing line are sequentially installed, so that glass can be installed in the window frame assembly; the second pressing line is fixedly connected to the window frame assembly in advance, and then the fixed glass and the first pressing line are sequentially installed, so that the external installation of the glass can be realized; therefore, when the glass indoor and outdoor installation device is constructed on site, convenient conversion of indoor and outdoor installation of the glass can be achieved according to actual requirements, and the glass indoor and outdoor installation device has universality for different requirements.

Optionally, the first pressing line includes a first pad strip and a first pressing plate; the first filler strip is abutted to the glass, the first pressing plate is clamped with the first filler strip, and the first pressing plate is detachably and fixedly connected with the window frame assembly.

By adopting the technical scheme, the first filler strip is abutted against the glass, so that the glass is prevented from being damaged by direct contact between the glass and the section bar, and the sealing and waterproof effects are achieved; first clamp plate and first filler strip joint, first clamp plate and window frame subassembly fixed connection for first clamp plate compresses tightly glass fixedly with first filler strip jointly.

Optionally, the first filler strip includes a first clamping portion, and the first clamping portion is located on one side of the first filler strip away from the glass; the glass pressing device is characterized in that a first clamping groove is formed in the first pressing plate, the notch of the first clamping groove faces towards the glass, the notch of the first clamping groove contracts, and the first clamping groove is clamped with the first clamping portion.

Through adopting above-mentioned technical scheme, first filler strip and first clamp plate are realized being connected through the block in first joint portion and first joint groove, and the notch in first joint groove contracts for slippage in the difficult follow first joint groove of first joint portion causes glass to rock.

Optionally, a first deformation hole is formed in the first filler strip, and a gap exists between the bottom surface of the first clamping groove and the first clamping portion.

Through adopting above-mentioned technical scheme, the existence in first deformation hole can improve first filler strip because expend with heat and contract with cold and the atress difference that produces, has the clearance between the bottom surface in first joint groove and the first joint portion, is favorable to avoiding first clamp plate excessively to extrude first filler strip owing to receive external force.

Optionally, the first pressing line further includes a first screw, and the first pressing plate is connected to the window frame assembly through the first screw.

Through adopting above-mentioned technical scheme, first clamp plate and first screw threaded connection, the window frame subassembly also with first screw threaded connection for fixed connection can be dismantled with the window frame subassembly to first clamp plate, is convenient for change glass, also is convenient for carry out the convenient conversion of interior outer suit.

Optionally, the first pressing line further includes a first buckle plate, and the first buckle plate includes a first plate cover and a first buckle tooth connected to the first plate cover; a first mounting groove is formed in the first pressing plate, a nut of the first screw is located in the first mounting groove, and the first plate cover covers a notch of the first mounting groove; the first pressing plate is provided with a first clamping hook, the first clamping hook is connected with the side wall of the first mounting groove, and the first buckle tooth is buckled with the first clamping hook.

By adopting the technical scheme, the screw cap of the first screw is positioned in the first mounting groove, and the first plate cover covers the notch of the first mounting groove, so that the waterproof and protective effects are achieved, and the whole window is more attractive; the first clamping hook is buckled with the first buckle tooth, so that the first buckle plate is not easy to slip from the first mounting groove.

Optionally, the window frame assembly includes a first profile, a second profile, and a heat insulation strip; the first section is fixedly connected with the first pressing plate, the second section is fixedly connected with the second pressing line, and a heat insulation space is formed between the first section and the second section; one side of the first section bar, which is close to the second section bar, is provided with a first buckling groove, one side of the second section bar, which is close to the first section bar, is provided with a second buckling groove, and two ends of the heat insulation strip are buckled with the first section bar and the second section bar respectively.

Through adopting above-mentioned technical scheme, the thermal-insulated strip is with first section bar and second section bar fixed connection, and the thermal-insulated space between first section bar and the second section bar is full of the air, and the coefficient of heat conductivity of air is little, can play thermal-insulated effect.

Optionally, the first screw penetrates through the first pressure plate, the first profile and the second profile in sequence.

Through adopting above-mentioned technical scheme, through first screw fixed connection between first clamp plate, first section bar and the second section bar three, improved the mechanical strength and the compressive capacity of window frame subassembly, guaranteed overall structure's atress continuity.

Optionally, the window frame assembly further comprises a foam rod abutting the glass, and the first profile and the second profile both abut the foam rod.

By adopting the technical scheme, the foam rod has sealing and waterproof functions, and is lower in price than sealing glue and lower in decoration cost; the foam rod has small heat conductivity coefficient and heat insulation function; the foam rod has small thermal expansion coefficient, good dimensional stability, good compression resistance and corrosion resistance.

In summary, compared with the related art, the utility model has the following beneficial effects:

1. the first pressing line is fixedly connected to the window frame assembly in advance, and then the fixed glass and the second pressing line are sequentially installed, so that the glass can be installed in the window frame assembly; with second line ball fixed connection in window frame subassembly in advance, then install fixed glass and first line ball in proper order, can realize that glass adorns outward, when site operation, can realize the convenient conversion of the indoor outer installation of glass according to actual demand, have the universality to different demands.

2. The utility model not only ensures the stress continuity and the stress rationality of the glass, the first pressing line, the second pressing line and the window frame assembly, but also ensures the convenience of maintaining and replacing the window.

3. The heat insulation bar and the foam rod are arranged, and the heat conductivity coefficient of the manufacturing materials of the heat insulation bar and the foam rod is small, so that the heat insulation bar has a heat insulation effect; the heat insulation space is filled with air, the heat conductivity coefficient of the air is small, and the heat insulation effect is achieved.

Drawings

FIG. 1 is a cross-sectional schematic view of an insulating window structure.

Fig. 2 is a partially enlarged view of a portion a in fig. 1.

Fig. 3 is a partially enlarged view of a portion B in fig. 1.

Figure 4 is a cross-sectional view of an adjacent window of the insulating window structure.

Description of reference numerals:

1. glass;

2. a first pressing line; 21. a first filler strip; 211. a first clamping part; 212. a first deformation hole; 213. a first lobe; 22. a first platen; 221. a first pressing part; 2211. a first clamping groove; 222. a first fixed part; 2221. a first mounting groove; 2222. a first hook; 23. a first screw; 24. a first buckle plate; 241. a first plate cover; 242. a first buckle tooth;

3. a second line pressing; 31. a second bead; 311. a second clamping part; 312. a second deformation hole; 313. a second lobe; 32. a second platen; 321. a second pressing part; 3211. a second clamping groove; 322. a second fixed part; 3221. a second mounting groove; 3222. a second hook; 33. a second screw; 34. a second buckle plate; 341. a second plate cover; 342. a second buckle tooth;

4. a window frame assembly; 41. a first profile; 411. a first snap groove; 42. a second profile; 421. a second fastening groove; 43. a heat insulating strip; 44. a foam rod.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

Referring to fig. 1, the present embodiment discloses a heat insulation window structure including a glass 1, a first pressing line 2, a second pressing line 3, and a window frame assembly 4.

Referring to fig. 1, a glass 1 is a hollow glass 1 having a heat insulating effect. The first pressing line 2 is abutted against the glass 1 and used for fixing the glass 1. The second pressing line 3 is also abutted against the glass 1 for fixing the glass 1. The window frame assembly 4 is fixedly connected with the first pressing line 2 and the second pressing line 3 and used for indirectly fixing the glass 1.

Referring to fig. 1 and 2, the first pressing line 2 is provided outdoors for fixing the glass 1 inwardly. The first pressing line 2 comprises a first pad strip 21, a first pressing plate 22, a first screw 23 and a first buckle plate 24. The first filler strip 21 may be made of silica gel or silicone weather-resistant sealant. First filler strip 21 and 1 butt of glass can avoid glass 1 direct and the section bar contact to cause the damage to glass 1, and first filler strip 21 still has sealed and waterproof effect for it is indoor that wind and rain is difficult to get into from window department. The contact position of the first gasket strip 21 and the glass 1 is provided with a first convex tooth 213, and the first convex tooth 213 can bear pressure to enable the deformation of the gasket strip body to be smaller, so that the sealing effect of the first gasket strip 21 is ensured. The first filler strip 21 is provided with a first deformation hole 212 inside, and the existence of the first deformation hole 212 can improve the stress difference of the first filler strip 21 caused by thermal expansion and cold contraction, which is beneficial to ensuring the sealing effect of the first filler strip 21. One side that glass 1 was kept away from to first filler strip 21 has first joint portion 211, and first joint portion 211 is "T shape", is favorable to keeping firm joint.

Referring to fig. 2, the first pressing plate 22 is clamped to the first pad strip 21, and the first pressing plate 22 includes a first pressing portion 221 and a first fixing portion 222. The first pressing portion 221 is clamped with the first pad strip 21, the first pressing portion 221 has a first clamping groove 2211 with an opening facing the glass 1, and the first clamping portion 211 is clamped with the first clamping groove 2211. There is a gap between the bottom surface of the first clamping groove 2211 and the first clamping portion 211, which is beneficial to preventing the first pressure plate 22 from excessively extruding the first filler strip 21 due to external force. The end of the first clamping portion 211, which is far away from the glass 1, is provided with a chamfer, so that the first clamping portion 211 can be clamped into the first clamping groove 2211. The first presser plate 22 is made of an aluminum alloy material.

Referring to fig. 1 and 3, the first fixing portion 222 is integrally formed with the first pressing portion 221, and the first fixing portion 222 is fixedly connected to the window frame assembly 4 by the first screw 23. The first fixing portion 222 is provided with a first mounting groove 2221, an opening direction of the first mounting groove 2221 is opposite to an opening direction of the first clamping groove 2211, and a nut of the first screw 23 is located in the first mounting groove 2221. The first fixing portion 222 is provided with two first hooks 2222, and the two first hooks 2222 respectively protrude from two opposite sidewalls of the first mounting groove 2221 for being fastened to the first buckle plate 24.

Referring to fig. 1 and 3, the first buckle plate 24 includes a first plate cover 241 and a first buckle tooth 242, and the first buckle tooth 242 is fastened to the first hook 2222, so that the first buckle plate 24 is not easy to slip off from the first fixing portion 222. The first plate cover 241 covers the notch of the first mounting groove 2221, so that the functions of dust prevention and water prevention can be achieved, and the overall aesthetic property of the window can be improved. The surface of the first cover 241 away from the first screw 23 is flush with the surface of the first pressing plate 22 away from the glass 1, so that the surface of the first pressing line 2 facing the outdoor is flat and beautiful.

Referring to fig. 1, the second pressing line 3 is provided indoors for fixing the glass 1 outward. The second pressing line 3 comprises a second pad strip 31, a second pressing plate 32, a second screw 33 and a second buckle 34. The second filler strip 31 may be made of silica gel or silicone weather-resistant sealant. Second filler strip 31 and 1 butt of glass can avoid glass 1 direct and the section bar contact to cause the damage to glass 1, and second filler strip 31 still has sealed and waterproof effect for it is indoor that wind and rain is difficult to get into from window department. The contact position of the second gasket strip 31 and the glass 1 is provided with a second convex tooth 313, and the second convex tooth 313 can bear pressure to enable the deformation of the gasket strip body to be smaller, so that the sealing effect of the second gasket strip 31 can be ensured. The second deformation hole 312 is formed in the second filler strip 31, and the existence of the second deformation hole 312 can improve the stress difference of the second filler strip 31 caused by thermal expansion and cold contraction, which is beneficial to ensuring the sealing effect of the second filler strip 31. One side of the second filler strip 31, which is far away from the glass 1, is provided with a second clamping portion 311, and the second clamping portion 311 is in a T shape, which is beneficial to keeping stable clamping.

Referring to fig. 1, the second pressing plate 32 is clamped to the second backing strip 31, and the second pressing plate 32 includes a second pressing portion 321 and a second fixing portion 322. The second pressing portion 321 is clamped with the second pad strip 31, the second pressing portion 321 has a second clamping groove 3211 with an opening facing the glass 1, and the second clamping portion 311 is clamped with the second clamping groove 3211. One end of the second clamping portion 311, which is far away from the glass 1, is provided with a chamfer so as to conveniently clamp the second clamping portion 311 into the second clamping groove 3211.

Referring to fig. 1, the second fixing portion 322 is integrally formed with the second pressing portion 321, and the second fixing portion 322 is fixedly connected to the window frame assembly 4 by the second screw 33. The second fixing portion 322 is provided with a second mounting groove 3221, an opening direction of the second mounting groove 3221 is perpendicular to an opening direction of the second clamping groove 3211, and a nut of the second screw 33 is located in the second mounting groove 3221. Two second hooks 3222 are disposed on the second fixing portion 322, and the two second hooks 3222 protrude from two opposite sidewalls of the second mounting groove 3221 respectively, and are used for fastening with the second fastening plate 34.

Referring to fig. 1, the second fastening plate 34 includes a second plate cover 341 and a second fastening tooth 342, and the second fastening tooth 342 is fastened to the second hook 3222, so that the second fastening plate 34 is not easy to slip off from the second fixing portion 322. The second plate cover 341 covers the opening of the second mounting groove 3221, and may have dust-proof and water-proof functions.

Referring to fig. 1, the window frame assembly 4 is installed in a window opening, and the window frame assembly 4 includes a first profile 41, a second profile 42, an insulation bar 43, and a foam rod 44. The first section bar 41 and the second section bar 42 are made of aluminum alloy, a heat insulation space is formed between the first section bar 41 and the second section bar 42, the heat insulation space is filled with air, the heat conductivity coefficient of the air is small, heat conduction between the first section bar 41 and the second section bar 42 is reduced, and a heat insulation effect is achieved. The first screw 23 sequentially penetrates through the first pressing plate 22, the first section bar 41 and the second section bar 42 from outside to inside, and is in threaded connection with the first pressing plate, the first section bar 41 and the second section bar 42 to realize fixed connection of the first pressing plate, the first section bar and the second section bar. The second pressing plate 32 and the second section bar 42 are also fixedly connected through the second screw 33, so that the whole stress of the window is more continuous and reasonable.

Referring to fig. 1, a first fastening groove 411 is formed in one side of the first section bar 41 close to the second section bar 42, a second fastening groove 421 is formed in one side of the second section bar 42 close to the first section bar 41, and two ends of the heat insulating strip 43 are fastened to the first section bar 41 and the second section bar 42 respectively. The heat insulation strips 43 are made of PA66GF25 (polyamide 66 added with 25% of glass fiber), have small heat conductivity and have heat insulation effect; and the hardness is high, the wear resistance is high, and the wind and pressure resistance is strong. In the present embodiment, two heat insulating strips 43 are provided, and in other embodiments, more than two heat insulating strips 43 may be provided according to the sizes of the first profile 41 and the second profile 42. The foam rod 44 abuts against the end of the glass 1 and abuts against the first section bar 41 and the second section bar 42 at the same time, so that the sealing and waterproof functions of the interior of the window are achieved, and the cost is low. The surface of the foam rod 44 may also be coated with a weather resistant sealant for further sealing.

The implementation principle of the embodiment is as follows: the first pressing line 2 is fixedly connected to the window frame component 4 in advance, and then the fixed glass 1 and the second pressing line 3 are sequentially installed, so that the glass 1 can be installed in a built-in manner; the second pressing line 3 is fixedly connected to the window frame component 4 in advance, and then the fixed glass 1 and the first pressing line 2 are sequentially installed, so that the glass 1 can be externally installed; when the indoor and outdoor installation switching of the glass 1 can be realized according to actual requirements during field construction.

Referring to fig. 4, when two adjacent windows are installed, the window frame assemblies 4 of the two adjacent windows can be connected by the foam rod 44 and the sealant, so that the whole structure of the window is continuous and the appearance of the window is attractive.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (9)

1. A thermal insulating window structure characterized by: comprises glass (1), a first pressing line (2), a second pressing line (3) and a window frame component (4); the first pressing line (2) is fixedly connected with the window frame assembly (4) in a detachable mode, the second pressing line (3) is fixedly connected with the window frame assembly (4) in a detachable mode, and two light transmission faces of the glass (1) are respectively abutted to the first pressing line (2) and the second pressing line (3).

2. A thermally insulating window structure according to claim 1, wherein: the first pressing line (2) comprises a first cushion strip (21) and a first pressing plate (22); first filler strip (21) with glass (1) butt, first clamp plate (22) with first filler strip (21) joint, first clamp plate (22) with fixed connection can be dismantled in window frame subassembly (4).

3. A thermally insulating window structure according to claim 2, wherein: the first filler strip (21) comprises a first clamping portion (211), and the first clamping portion (211) is located on one side, away from the glass (1), of the first filler strip (21); be equipped with first joint groove (2211) on first clamp plate (22), the notch orientation of first joint groove (2211) glass (1), the notch shrink of first joint groove (2211), first joint groove (2211) with first joint portion (211) block.

4. A thermally insulating window construction according to claim 3, wherein: a first deformation hole (212) is formed in the first filler strip (21), and a gap exists between the bottom surface of the first clamping groove (2211) and the first clamping portion (211).

5. A thermally insulating window structure according to claim 2, wherein: the first pressing line (2) further comprises a first screw (23), and the first pressing plate (22) is connected with the window frame component (4) through the first screw (23).

6. The insulating window structure of claim 5, wherein: the first pressing line (2) further comprises a first buckling plate (24), and the first buckling plate (24) comprises a first plate cover (241) and a first buckling tooth (242) connected to the first plate cover (241); a first mounting groove (2221) is formed in the first pressing plate (22), a nut of the first screw (23) is located in the first mounting groove (2221), and the first plate cover (241) covers a notch of the first mounting groove (2221); be provided with first trip (2222) on first clamp plate (22), first trip (2222) with the lateral wall of first mounting groove (2221) is connected, first buckle tooth (242) with first trip (2222) lock.

7. A thermally insulating window structure according to claim 1, wherein: the sash assembly (4) comprises a first profile (41), a second profile (42) and a heat insulating strip (43); the first profile (41) is fixedly connected with the first pressing plate (22), the second profile (42) is fixedly connected with the second pressing line (3), and a heat insulation space is formed between the first profile (41) and the second profile (42); first section bar (41) are close to one side of second section bar (42) is equipped with first lock joint groove (411), second section bar (42) are close to one side of first section bar (41) is equipped with second lock joint groove (421), the both ends of heat insulating strip (43) respectively with first section bar (41) and second section bar (42) lock.

8. The insulating window structure of claim 7, wherein: the first screw (23) passes through the first pressure plate (22), the first section bar (41) and the second section bar (42) in sequence.

9. The insulating window structure of claim 7, wherein: the sash assembly (4) further comprises a foam rod (44) abutting the glass (1), the first profile (41) and the second profile (42) each abutting the foam rod (44).

Images