CN218029925U - Heat insulation window assembly - Google Patents

Abstract

The utility model discloses a heat insulation window component, which comprises a window sash component and a mounting component which are connected, wherein the mounting component is a window frame component or an atrium component, and the window sash component comprises a window sash outer section, a window sash heat insulation strip and a window sash inner section which are connected in sequence; the mounting assembly comprises a mounting outer section, a mounting heat insulation strip and a mounting inner section which are connected in sequence; the window sash heat insulation strip is in clearance fit with the installation heat insulation strip and is in sealing connection with the installation heat insulation strip through the sealing strip. In this heat-insulating window subassembly, the casement heat insulating strip of casement subassembly passes through the sealing strip with the installation heat insulating strip of installation component to be connected, on realizing sealed waterproof basis, has reduced the propagation of heat between indoor and outdoor to reach thermal-insulated heat retaining effect, this subassembly simple structure not only is favorable to reduce cost, is favorable to improving the installation effectiveness moreover.

Description

Heat insulation window assembly

Technical Field

The utility model belongs to the technical field of building door and window technique and specifically relates to a heat-insulating window subassembly is related to.

Background

With the vigorous development of the Chinese building industry and the improvement of environmental protection consciousness, the requirements of houses and public buildings on the technology, appearance effect and physical property of doors and windows are higher and higher, and the requirements of the house design specifications issued by the state on the heat insulation performance indexes of the windows are also gradually improved.

At present stage, the door and window structure mostly adopts the aluminum alloy material structure, though sturdy and durable, but external and indoor heat can transmit through aluminum alloy window frame, lead to producing great influence to indoor temperature, for the enhancement heat-proof quality, for china utility model patent such as CN204199982U, CN207715019U, CN215332303U, CN202249620U, CN211874257U of bulletin number discloses multiple thermal-insulated window subassembly, these thermal-insulated window subassemblies mostly set up two at least joint strip between window frame section bar and casement section bar, rely on joint strip separation heat to propagate, reach thermal-insulated heat preservation and waterproof effect.

However, the heat insulation window assembly for realizing heat insulation and water resistance through the plurality of sealing rubber strips is complex in structure, not only is the production cost of the assembly increased, but also the assembly is complex in installation and the construction efficiency is reduced, in addition, although the sealing rubber strips can achieve the effect of sealing and water resistance, the heat transfer coefficient is about 0.3W/square meter and K, the heat insulation performance is limited, and the outdoor temperature still has certain influence on the indoor environment.

Accordingly, there is a need for an improved insulating window assembly of the prior art.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome the defect that exists among the prior art, provide a simple structure, reduce cost and improve the installation effectiveness, further strengthen the thermal-insulated window subassembly of heat-proof quality on sealed waterproof basis.

In order to realize the technical effects, the utility model adopts the technical scheme that: a heat insulation window assembly comprises a window sash assembly and a mounting assembly which are connected, wherein the mounting assembly is a window frame assembly or an atrium assembly, and the window sash assembly comprises a window sash outer section, a window sash heat insulation strip and a window sash inner section which are sequentially connected; the mounting assembly comprises a mounting outer section, a mounting heat insulation strip and a mounting inner section which are connected in sequence; the window sash heat insulation strip is in clearance fit with the installation heat insulation strip and is in sealing connection with the installation heat insulation strip through a sealing strip.

Preferably, in order to ensure the sealing and waterproof effect, the sealing strip is a flexible sealing strip.

Preferably, in order to further improve the heat insulation effect on the basis of ensuring the sealing waterproof effect, the sealing strip is a rubber strip.

Preferably, in order to save production raw materials of the sealing strip and reduce cost on the basis of ensuring the sealing and waterproof effects, the sealing strip is provided with a through hole with an axis extending along the length direction of the sealing strip.

Preferably, in order to reinforce the stability of the sealing strip assembling structure, a sash protrusion is arranged on the sash heat insulating strip, an installation protrusion is arranged on the installation heat insulating strip, and the sealing strip is attached between one of the side walls of the sash protrusion and one of the side walls of the installation protrusion.

Preferably, in order to further enhance the installation stability of the sealing strip, a recess adjacent to the window sash protrusion is formed in the window sash heat insulation strip, or a recess adjacent to the installation protrusion is formed in the window sash heat insulation strip, and the sealing strip comprises an assembling portion in inserting fit with the recess.

Preferably, in order to facilitate assembly, the side wall of the assembly portion is in clearance fit with the inner wall of the recess, and an assembly protrusion abutted against the inner wall of the recess is arranged on the side wall of the assembly portion.

Preferably, in order to ensure the sealing and heat insulation effects, the assembling protrusions are respectively arranged on two sides of the assembling portion.

Preferably, in order to further ensure the sealing and heat insulation effect, at least two bulges are arranged on two sides of the assembling part and are arranged at intervals along the depth direction of the recess.

Preferably, in order to enhance the heat insulation effect, the sash heat insulation strip and the mounting heat insulation strip are both polyurethane heat insulation strips.

To sum up, the utility model discloses heat-insulating window subassembly compares with prior art, and the heat insulating strip of casement subassembly passes through the sealing strip with the heat insulating strip of installation component to be connected, on realizing sealed waterproof basis, has reduced the propagation of heat between indoor and outdoor to reach heat-insulating heat retaining effect, this subassembly simple structure not only is favorable to reduce cost, is favorable to improving the installation effectiveness moreover.

Drawings

FIG. 1 is a schematic view of the structure of embodiment 1;

fig. 2 is a schematic view of the result of the sash assembly of embodiment 1;

FIG. 3 is a schematic structural view of the sealing tape of embodiment 1;

FIG. 4 is a schematic structural view of a mounting assembly of embodiment 1;

FIG. 5 is an enlarged view of portion A of FIG. 1;

FIG. 6 is a schematic structural view of embodiment 2;

in the figure: 100. the window sash assembly comprises a window sash assembly, 101, a window sash outer profile, 102, a window sash heat insulation strip, 103, a window sash inner profile, 200, a mounting assembly, 201, a mounting outer profile, 202, a mounting heat insulation strip, 203, a mounting inner profile, 300, a sealing strip, 301, a through hole, 400, a window sash protrusion, 500, a mounting protrusion, 600, a recess, 700, an assembling part and 800, an assembling protrusion.

Detailed Description

The following description will further describe embodiments of the present invention with reference to the accompanying drawings and examples. The following examples are only for illustrating the technical solutions of the present invention more clearly, and the protection scope of the present invention is not limited thereby.

Example 1

As shown in fig. 1 to 5, the heat insulation window assembly of embodiment 1 includes a window sash assembly 100 and a mounting assembly 200 connected together, where the window sash assembly 100 is used for mounting a window sash, and the mounting assembly 200 is a window frame assembly used for being fixedly mounted on a wall to form a window frame of a door window; the specific structure of the window sash assembly 100 and the mounting assembly 200 is as follows:

the window sash assembly 100 comprises a window sash outer profile 101, a window sash heat insulation strip 102 and a window sash inner profile 103 which are sequentially connected, the length directions of the three are parallel, the window sash outer profile 101 is an aluminum profile arranged on the outdoor side, the window sash heat insulation strip 102 is a polyurethane heat insulation strip, and the window sash inner profile 103 is an aluminum profile arranged on the indoor side;

the installation assembly 200 comprises an installation outer section 201, an installation heat insulation strip 202 and an installation inner section 203 which are sequentially connected, the length directions of the installation outer section 201, the installation heat insulation strip 202 and the installation inner section 203 are parallel, the installation outer section 201 is a window frame outer section and is installed on the outdoor side, the installation heat insulation strip 202 is a polyurethane heat insulation strip, the installation inner section 203 is a window frame inner section and is installed on the indoor side, and the installation outer section 201 and the installation inner section 203 are aluminum sections.

A sealing strip 300 is arranged between the sash insulating strip 102 and the mounting insulating strip 202, and the sealing strip 300 abuts against the sash insulating strip 102 and the mounting insulating strip 202 to realize connection with the sash insulating strip 102 and the mounting insulating strip 202.

In the heat insulation window assembly of this embodiment, the outer sash profile 101 and the inner sash profile 103 of the sash assembly 100, and the outer mounting profile 201 and the inner mounting profile 203 of the mounting assembly 200 are both made of aluminum profiles, so as to ensure the structural strength of the heat insulation window assembly.

The sash outer profile 101 and the sash inner profile 103 are connected through the sash heat insulation strips 102 made of polyurethane, and the installation outer profile 201 and the installation inner profile 203 are connected through the installation heat insulation strips 202 made of polyurethane, compared with the heat transfer coefficient of rubber of 0.3W/square meter, K, the heat insulation coefficient of polyurethane is 0.062W/square meter, K, so the sash heat insulation strips 102 and the installation heat insulation strips 202 made of polyurethane have better heat insulation performance, and the sash heat insulation strips 102 and the installation heat insulation strips 202 are in clearance fit, and the sealing strips 300 are arranged in the clearances of the sash heat insulation strips and the installation heat insulation strips, so that the heat insulation effect of the heat insulation window is ensured, the influence of outdoor environment temperature on the indoor environment temperature is further reduced, and the indoor living environment quality is improved.

The sealing strips 300 which are connected with the sash heat insulating strips 102 and the installation heat insulating strips 202 in a sealing mode are arranged between the sash heat insulating strips 102 and the installation heat insulating strips 202, so that the heat is prevented from being spread through the sash heat insulating strips 102 and the installation heat insulating strips 202, and meanwhile, the sealing, waterproof and heat-insulating effects are achieved. In addition, after adopting the above structure, compared with the complex heat insulation window assembly in the prior art, the heat insulation window assembly of the embodiment reduces the number of the sealing strips 300, thereby simplifying the structure, not only being beneficial to reducing the cost, but also improving the assembly construction efficiency.

The sealing strip 300 is an ethylene propylene diene monomer sealing strip, namely an ethylene propylene diene monomer rubber strip, is formed in one step by adopting a microwave vulcanization process, has a smooth and attractive surface, and has excellent performances of good elasticity, compression deformation resistance, weather aging resistance, ozone resistance, chemical action resistance, strong fire resistance, a wide service temperature range (minus 50 ℃ to plus 150 ℃) and the like. Particularly, the ethylene propylene diene monomer sealing strip belongs to a rubber strip, is called as EPDM rubber strip for short, has excellent ultraviolet resistance, and has weather resistance, heat aging resistance, low temperature resistance, ozone resistance, chemical medium resistance, water resistance, good electrical insulation and other material mechanical properties. Therefore, the ethylene propylene diene monomer sealing strips are selected as the sealing strips 300, so that the sealing, waterproof and heat-insulating effects of the sash heat-insulating strips 102 and the mounting heat-insulating strips 202 are ensured, the stable physical and chemical properties of the heat-insulating window assembly are also ensured, and the service life of the heat-insulating window assembly is prolonged.

A step-shaped sash protrusion 400 is arranged on one side of the sash heat insulation strip 102 adjacent to the installation heat insulation strip 202, a step-shaped installation protrusion 500 is arranged on one side of the installation heat insulation strip 202 adjacent to the sash heat insulation strip 102, one side wall of the sash protrusion 400 is in clearance fit with one side wall of the installation protrusion 500, and two sides of the sealing strip 300 are respectively abutted and attached to the side wall of the sash protrusion 400 and the side wall of the installation protrusion 500.

After adopting above-mentioned structure, utilize the lateral wall of casement arch 400 and the lateral wall of installation arch 500 to establish with flexible sealing strip 300 clamp, guarantee sealed effect, prevent that sealing strip 300 offset from sliding, further strengthened thermal-insulated heat preservation and sealed water-proof effects.

In order to further facilitate assembly on the basis of ensuring the heat insulation and waterproof sealing effects, a recess 600 adjacent to the sash protrusion 400 is arranged on the sash heat insulation strip 102, the recess 600 is in a through groove shape, an assembly part 700 and a hollow part are respectively arranged on two sides of the sealing strip 300, the hollow part abuts against the mounting protrusion 500, a through hole 301 is arranged on the hollow part, and the axis of the through hole 301 extends along the direction parallel to the axis of the sealing strip 300; the assembling portion 700 is in plug-in fit with the recess 600, the side wall of the assembling portion 700 is in clearance fit with the inner wall of the recess 600, the side wall of the assembling portion 700 is provided with four assembling protrusions 800, the four assembling protrusions 800 are hook-shaped and abut against the inner wall of the recess 600, the four assembling protrusions 800 are arranged on two sides of the assembling portion 700 respectively, and the assembling protrusions 800 on the same side of the assembling portion 700 are distributed at intervals in the depth direction of the recess 600.

After the structure is adopted, the sealing strip 300 is divided into the assembly part 700 and the hollow part, wherein the through hole 301 arranged on the hollow part is beneficial to reducing the production material consumption of the sealing strip 300, so that the production cost of the sealing strip 300 is reduced, and the deformation of the sealing strip 300 is convenient, so that the sealing, the water resistance and the heat insulation are realized; and the lateral wall of assembly portion 700 and the inner wall clearance fit of sunken 600 make things convenient for assembly portion 700 to insert sunken 600 inboard to through the protruding 800 of assembly portion 700 both sides and the inner wall butt of sunken 600, thereby realize sealing strip 300 and casement heat insulating strip 102's sealed, because the protruding 800 of assembly portion 700 both sides all is provided with two, thereby has increased the quantity of sealed contact position, has further strengthened sealed thermal-insulated waterproof effect that keeps warm.

Of course, as an alternative to the similar effect, the recess 600 may also be disposed on the mounting heat insulating strip 202, at this time, the hollow portion abuts against the window sash protrusion 400 on the window sash heat insulating strip 102, and the insertion portion is inserted into and matched with the recess 600, so that the sealing effect is also ensured.

Example 2

As shown in fig. 6, the heat insulation window assembly of embodiment 2 is different from that of embodiment 1 in that the installation assembly 200 is an atrium assembly and is fixedly installed on a wall to form an atrium of a window.

After adopting above-mentioned structure, also can be on guaranteeing waterproof basis sealed, further strengthen thermal-insulated thermal insulation performance, guarantee indoor good living environment, and simplified the structure, reduction in production cost, and convenient construction improves assembly efficiency.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of improvements and decorations can be made without departing from the technical principle of the present invention, and these improvements and decorations should also be regarded as the protection scope of the present invention.

Claims (10)

1. An insulated window assembly comprising a sash assembly (100) and a mounting assembly (200) connected, the mounting assembly (200) being a window frame assembly or an atrium assembly, characterized in that:

the window sash assembly (100) comprises a window sash outer section (101), a window sash heat insulation strip (102) and a window sash inner section (103) which are connected in sequence;

the mounting assembly (200) comprises a mounting outer section bar (201), a mounting heat insulation bar (202) and a mounting inner section bar (203) which are connected in sequence;

the sash insulating strip (102) and the mounting insulating strip (202) are in clearance fit and are in sealing connection through a sealing strip (300).

2. The insulating window assembly of claim 1, wherein: the sealing strip (300) is a flexible sealing strip (300).

3. The insulating window assembly of claim 2, wherein: the sealing strip (300) is a rubber strip.

4. The insulating window assembly of claim 2, wherein: the sealing strip (300) is provided with a through hole (301) with an axial lead extending along the length direction of the sealing strip.

5. The insulating window assembly of claim 2, wherein: the window sash heat insulation strip (102) is provided with a window sash protrusion (400), the installation heat insulation strip (202) is provided with an installation protrusion (500), and the sealing strip (300) is attached between one side wall of the window sash protrusion (400) and one side wall of the installation protrusion (500).

6. The insulating window assembly of claim 5, wherein: the window sash heat insulation strip (102) is provided with a recess (600) adjacent to the window sash protrusion (400), or the installation heat insulation strip (202) is provided with a recess (600) adjacent to the installation protrusion (500), and the sealing strip (300) comprises an assembling portion (700) in plug-in fit with the recess (600).

7. The insulating window assembly of claim 6, wherein: the side wall of the assembling part (700) is in clearance fit with the inner wall of the recess (600), and an assembling protrusion (800) which is abutted against the inner wall of the recess (600) is arranged on the side wall of the assembling part (700).

8. The insulating window assembly of claim 7, wherein: the assembling protrusions (800) are respectively disposed at both sides of the assembling portion (700).

9. The insulating window assembly of claim 6, wherein: the bulges on two sides of the assembling part (700) are at least two and are arranged at intervals along the depth direction of the recess (600).

10. The insulating window assembly of claim 1, wherein: the sash heat insulation strip (102) and the mounting heat insulation strip (202) are both polyurethane heat insulation strips.

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