Thermal insulation type aluminum profile door and window

By incorporating built-in thermal break strips, thermal break patches, and thermal break fins into sliding aluminum profile doors and windows, the problem of poor thermal insulation at the connection between the glass outer frame and the main frame is solved, improving thermal insulation performance and maintaining smooth window operation.

CN224379670UActive Publication Date: 2026-06-19DAYE HUACHEN ALUMINUM TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
DAYE HUACHEN ALUMINUM TECH CO LTD
Filing Date
2025-04-22
Publication Date
2026-06-19

AI Technical Summary

Technical Problem

Existing sliding aluminum profile doors and windows have poor thermal insulation performance at the connection between the glass outer frame and the main frame, and adding sealing and thermal insulation strips will increase the damping feeling, making them inconvenient to use.

Method used

The design incorporates built-in thermal insulation strips, thermal insulation patches, and thermal insulation fins. The L-shaped structure with gaps between the window and the main frame enhances the thermal insulation performance of the glass frame and track assembly while maintaining smooth window operation.

Benefits of technology

It improves the thermal insulation performance of aluminum profile doors and windows, avoids increased damping caused by sealing connections, and ensures normal use of windows.

✦ Generated by Eureka AI based on patent content.

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  • Figure CN224379670U_ABST
    Figure CN224379670U_ABST
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Abstract

This utility model discloses a thermally insulated aluminum profile door and window, including rollers and a main frame; two glass outer frames connected to the inner side of the main frame, and glass fixed to the inner side of the glass outer frames; a track assembly including track strips fixed to the upper and lower inner walls of the main frame, and built-in thermal insulation strips set inside the track strips; a thermal insulation assembly including thermal insulation patches attached to the upper and lower ends of the glass outer frames, and three thermal insulation fins fixed to the bottom of the thermal insulation patches, wherein the thermal insulation patches are L-shaped; through the designed built-in thermal insulation strips, thermal insulation patches, thermal insulation fins and other structures, the thermal insulation effect at the connection between the glass outer frame and the track assembly can be improved, thereby improving the thermal insulation performance of the aluminum profile door and window. At the same time, the built-in thermal insulation strips, thermal insulation patches, thermal insulation fins and other components are not directly sealed to the connection between the glass outer frame and the track assembly, so they do not increase the damping in the sliding window, which is beneficial to the normal use of the window.
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Description

Technical Field

[0001] This utility model belongs to the field of window technology, specifically relating to a heat-insulating aluminum profile door and window. Background Technology

[0002] Aluminum profile windows and doors are a common type of window and door in modern buildings. Made primarily of aluminum alloy, they are lightweight, high-strength, corrosion-resistant, and resistant to deformation. Their surfaces are typically treated with anodizing or spraying, resulting in a beautiful and long-lasting finish. The windows and doors feature a rational structural design and good sealing, effectively blocking wind, rain, and dust. Furthermore, aluminum profile windows and doors offer excellent thermal and sound insulation. By employing thermal break technology—incorporating thermal break strips within the aluminum profile to block heat conduction and improve insulation—and combining them with double or multi-layered insulated glass, sound insulation and thermal insulation performance are further enhanced.

[0003] Sliding aluminum profile doors and windows often have poorer thermal insulation performance than casement doors and windows. This is because the glass frame and the main frame are connected by a sliding connection, typically through a track on the inside of the main frame and rollers on the edge of the glass frame. Due to this sliding connection, the thermal insulation performance is often poor. If a sealing and thermal insulation strip is directly installed on the track to strengthen the connection with the glass frame, it will create strong damping when sliding the window, making it inconvenient to use. Therefore, a new type of aluminum profile door and window needs to be designed to solve this problem. Summary of the Invention

[0004] The purpose of this utility model is to provide a thermally insulated aluminum profile door and window to solve the problem of poor thermal insulation at the connection between the glass outer frame and the main frame in the existing sliding aluminum profile door and window mentioned in the background art.

[0005] To achieve the above objectives, this utility model provides the following technical solution: a thermally insulated aluminum profile door and window, including rollers, and further comprising...

[0006] Main framework;

[0007] Two glass frames connected to the inside of the main frame, and glass fixed to the inside of the glass frames;

[0008] The track assembly includes track strips fixed to the upper and lower inner walls of the main frame and built-in heat insulation strips set inside the track strips;

[0009] The heat insulation component includes heat insulation patches attached to the upper and lower sides of the glass frame and three heat insulation fins fixed to the bottom of the heat insulation patches. The heat insulation patches have an L-shaped structure and there is a gap between the bottom of the heat insulation patches and the main frame.

[0010] Preferably, the heat insulation component further includes an embedded piece fixed inside the heat insulation patch and embedded grooves formed on both sides of the glass frame, wherein the embedded piece is bonded and fixed inside the embedded groove.

[0011] Preferably, the upper and lower ends of the glass frame are provided with connecting grooves, the rollers are rotatably disposed inside the connecting grooves, and the track extends into the connecting grooves.

[0012] Preferably, the track assembly further includes a slide rail fixed on the track bar, the slide rail being rotatably connected to the roller.

[0013] Preferably, a cleaning component is provided between the two ends of the connecting groove and the slide rail, the cleaning component including a fixing plate, a rubber brush, a fixing groove and bolts.

[0014] Preferably, the fixing plate is disposed inside both ends of the connecting groove, and the rubber brush is fixed to the end of the fixing plate and in contact with the slide.

[0015] Preferably, the fixing plate has a T-shaped cross-section when viewed from the side, and the top of the connecting groove is provided with a fixing groove for the top of the fixing plate to be inserted into the fixing groove. The bolt fixes the top of the fixing plate inside the fixing groove.

[0016] Compared with the prior art, the beneficial effects of this utility model are:

[0017] By incorporating built-in thermal insulation strips, thermal insulation patches, and thermal insulation fins, the thermal insulation effect at the connection between the glass frame and the track assembly can be improved, thus enhancing the thermal insulation performance of aluminum profile doors and windows. At the same time, these built-in thermal insulation strips, thermal insulation patches, and thermal insulation fins are not directly sealed to the connection between the glass frame and the track assembly, so they do not increase the damping in the sliding window, which is beneficial for the normal use of the window. Attached Figure Description

[0018] Figure 1 This is a three-dimensional schematic diagram of the present invention;

[0019] Figure 2 This is a side sectional view of the thermal insulation component of this utility model;

[0020] Figure 3 This utility model Figure 1 Enlarged view of area A in the middle;

[0021] In the diagram: 100, main frame; 200, glass outer frame; 300, glass; 400, track assembly; 401, track strip; 402, built-in thermal insulation strip; 403, slide rail; 500, thermal insulation assembly; 501, thermal insulation patch; 502, thermal insulation fin; 503, embedded plate; 504, embedded groove; 600, cleaning assembly; 601, fixing plate; 602, rubber brush; 603, fixing groove; 604, bolt; 700, connecting groove; 800, roller. Detailed Implementation

[0022] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.

[0023] Example

[0024] Please see Figures 1 to 3 This embodiment of the present invention provides a technical solution: a heat-insulating aluminum profile door and window, including rollers 800 and a main frame 100; two glass outer frames 200 connected to the inner side of the main frame 100, and glass 300 fixed to the inner side of the glass outer frames 200; a track assembly 400, including track strips 401 fixed to the upper and lower inner walls of the main frame 100, and built-in heat insulation strips 402 disposed inside the track strips 401; a heat insulation assembly 500, including heat insulation patches 501 attached to the upper and lower ends of the glass outer frames 200, and heat insulation patches 501 fixed to the upper and lower ends of the glass outer frames 200. The three heat-insulating fins 502 at the bottom and the heat-insulating patch 501 are in an L-shaped structure. There is a gap between the bottom end of the heat-insulating patch 501 and the main frame 100. The design of the built-in heat-insulating strip 402 and heat-insulating patch 501 can improve the heat insulation performance between the glass outer frame 200 and the track assembly 400. Through the design of multiple heat-insulating fins 502, heat is isolated step by step, further improving the heat preservation effect. The gap between the bottom end of the heat-insulating patch 501 and the main frame 100 will not affect the damping between the glass outer frame 200 and the track assembly 400, which is conducive to the normal use of the window.

[0025] In this embodiment, preferably, the heat insulation component 500 further includes an inlay 503 fixed inside the heat insulation patch 501 and an inlay groove 504 formed on both sides of the glass frame 200. The inlay 503 is bonded and fixed inside the inlay groove 504, thereby fixing the heat insulation patch 501 to the surface of the glass frame 200.

[0026] In this embodiment, preferably, the upper and lower ends of the glass frame 200 are provided with connecting grooves 700, the rollers 800 are rotatably disposed inside the connecting grooves 700, and the track bar 401 extends into the connecting grooves 700 to complete the positioning connection between the glass frame 200 and the track assembly 400.

[0027] In this embodiment, preferably, the track assembly 400 further includes a slide rail 403 fixed on the track bar 401. The slide rail 403 and the roller 800 are rotatably connected, allowing the window to be smoothly pulled out.

[0028] In this embodiment, preferably, a cleaning component 600 is provided between the two ends of the connecting groove 700 and the slide rail 403. The cleaning component 600 includes a fixing plate 601, a rubber brush 602, a fixing groove 603, and a bolt 604. The fixing plate 601 is disposed inside the two ends of the connecting groove 700. The rubber brush 602 is fixed to the end of the fixing plate 601 and contacts the slide rail 403. The side view of the fixing plate 601 has a T-shaped cross-section. The top of the connecting groove 700 is provided with a fixing groove 603 for the top of the fixing plate 601 to be inserted. The bolt 604 fixes the top of the fixing plate 601 inside the fixing groove 603. When the window is pulled out, the rubber brush 602 can clean the surface of the slide rail 403 to prevent dust or particles on the slide rail 403 from affecting the normal rolling of the roller 800.

[0029] Although embodiments of the present invention have been shown and described (see the detailed description above), it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the present invention, the scope of which is defined by the appended claims and their equivalents.

Claims

1. A type of thermally insulated aluminum profile door and window, comprising rollers (800), characterized in that: include Main frame (100); Two glass frames (200) connected to the inside of the main frame (100), and glass (300) fixed to the inside of the glass frames (200). The track assembly (400) includes a track strip (401) fixed to the upper and lower inner walls of the main frame (100) and a built-in heat insulation strip (402) disposed inside the track strip (401). The heat insulation component (500) includes heat insulation patches (501) attached to the upper and lower sides of the glass frame (200) and three heat insulation fins (502) fixed to the bottom of the heat insulation patches (501). The heat insulation patches (501) have an L-shaped structure and there is a gap between the bottom of the heat insulation patches (501) and the main frame (100).

2. The insulated aluminum profile door and window according to claim 1, characterized in that: The heat insulation component (500) also includes an insert (503) fixed inside the heat insulation patch (501) and an insert groove (504) opened on both sides of the glass frame (200), wherein the insert (503) is bonded and fixed inside the insert groove (504).

3. The insulated aluminum profile door and window according to claim 2, characterized in that: The upper and lower ends of the glass frame (200) are provided with connecting grooves (700), the roller (800) is rotatably disposed inside the connecting groove (700), and the track (401) extends into the connecting groove (700).

4. The thermal insulation aluminum profile door and window according to claim 3, characterized in that: The track assembly (400) also includes a slide (403) fixed on the track bar (401), the slide (403) and the roller (800) being tactilely connected.

5. The thermal insulation aluminum profile door and window according to claim 4, characterized in that: A cleaning component (600) is provided between the two ends of the connecting groove (700) and the slide (403). The cleaning component (600) includes a fixing plate (601), a rubber brush (602), a fixing groove (603), and a bolt (604).

6. The thermal insulation aluminum profile door and window according to claim 5, characterized in that: The fixing plate (601) is disposed inside both ends of the connecting groove (700), and the rubber brush (602) is fixed to the end of the fixing plate (601) and in contact with the slide (403).

7. The thermal insulation aluminum profile door and window according to claim 6, characterized in that: The fixing piece (601) has a T-shaped cross-section when viewed from the side. The top of the connecting groove (700) is provided with a fixing groove (603) for the top of the fixing piece (601) to be inserted. The bolt (604) fixes the top of the fixing piece (601) inside the fixing groove (603).