A door and window thermal insulation structure

By using the thermal break glass frame design of aluminum alloy windows and the automatic adjustment of the shading cloth, the problem of direct sunlight in hot climates is solved, achieving reduced energy consumption and improved sealing.

CN224379739UActive Publication Date: 2026-06-19SHANGHAI BEIMO CONSTR ENG CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SHANGHAI BEIMO CONSTR ENG CO LTD
Filing Date
2025-04-08
Publication Date
2026-06-19

AI Technical Summary

Technical Problem

Existing energy-saving doors and windows can easily allow a large amount of light to enter in hot climates, increasing cooling energy consumption.

Method used

The window features a thermally broken glass frame made of aluminum alloy, combined with a spring-loaded curtain and a blinding cloth. Through magnetic fixation and a sliding connection with a switch guide groove, the blinding cloth can be automatically adjusted and light reflected to reduce direct sunlight.

Benefits of technology

It effectively reduces indoor temperature rise, lowers cooling energy consumption, reduces gaps between aluminum alloy windows and installation frames, and improves sealing performance.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model relates to the field of energy -conserving doors and windows, concretely disclose a heat preservation structure of door and window, including installation frame, the inside of installation frame is provided with aluminium alloy window, and aluminium alloy window includes: broken bridge glass frame, glass board, the outside of the inner side wall of broken bridge glass frame corresponds the installation of mounting groove of glass board, the inside of broken bridge glass frame is provided with broken bridge hole channel, the inside of broken bridge hole channel is installed with mounting shaft, the outside of mounting shaft is installed with clock spring, and the end of clock spring is connected with shielding cloth, and the lower end of shielding cloth is connected with pull plate, and the inner side wall array of broken bridge glass frame is located below pull plate and is installed with magnetic attraction pad. Pull plate pulls shielding cloth and clock spring and rotates outside mounting shaft, pulls the whole pull plate to and the whole adsorption of magnetic attraction pad, shielding cloth then is shielded in the side surface of glass board, and the sunlight of irradiation is then reflected outward by shielding cloth coated with light-emitting coating, reduces the direct sunlight of room interior, avoids temperature to rise fast.
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Description

Technical Field

[0001] This utility model relates to the field of energy-saving doors and windows, specifically a thermal insulation structure for doors and windows. Background Technology

[0002] Energy-saving windows and doors are designed to increase the area for natural light and ventilation or to showcase the characteristics of modern architecture. They improve the optical, thermal, and sealing properties of materials and enhance the structure of windows and doors to achieve the desired effect. To increase the area for natural light and ventilation or to showcase the characteristics of modern architecture, the area of ​​windows and doors in buildings is becoming larger and larger, with some buildings even featuring all-glass curtain walls. As a result, the heat loss from windows and doors accounts for more than 40% of the total heat loss of a building. Energy-saving windows and doors are key to building energy conservation. Windows and doors are not only sensitive to energy gain and loss, but also relate to lighting, ventilation, sound insulation, and facade design.

[0003] However, while current energy-saving doors and windows can ensure airtightness, they can also allow a lot of light to enter the room in hot weather, thus increasing energy consumption for cooling. Utility Model Content

[0004] In view of the shortcomings of the existing technology, this utility model provides a thermal insulation structure for doors and windows, which solves the problems mentioned in the background.

[0005] This utility model provides the following technical solution: a thermal insulation structure for doors and windows, including an installation frame, an aluminum alloy window inside the installation frame, the aluminum alloy window including: a thermally broken glass frame and a glass panel, an installation groove is installed on the inner side wall of the thermally broken glass frame corresponding to the outer side of the glass panel, a thermally broken channel is provided inside the thermally broken glass frame, an installation shaft is installed inside the thermally broken channel, a spring is installed on the outer side of the installation shaft, a shielding cloth is connected to the end of the spring, a pull plate is connected to the lower end of the shielding cloth, and magnetic pads are arrayed and installed directly below the pull plate on the inner side wall of the thermally broken glass frame.

[0006] As a further improvement of this utility model: a switch guide groove is provided on the outer side wall of the broken bridge glass frame, and a switch guide block is installed on the inner side wall of the mounting frame corresponding to the position of the switch guide groove.

[0007] As a further improvement of this utility model: the mounting frame has a drainage hole on the side near the magnetic pad, a spring is installed on the inner side wall of the mounting frame, and a window pressing plate is installed at the end of the spring.

[0008] As a further improvement of this utility model: a sealing strip is installed between the glass plate and the mounting slot, and the pull plate is magnetically fixed to the magnetic pad.

[0009] As a further embodiment of this utility model: the shielding cloth is fixedly connected to the pull plate and the spring, and the mounting shaft is fixedly connected to the thermally broken glass frame.

[0010] As a further improvement of this utility model, the aluminum alloy window is slidably connected to the switch guide block via the switch guide groove.

[0011] As a further improvement of this invention: the shielding cloth is coated with a reflective coating on the side closest to the glass plate.

[0012] As a further improvement of this utility model: the window pressing plate is fixedly connected to the mounting frame by the spring.

[0013] Compared with the prior art, the beneficial effects of this utility model are:

[0014] 1. Pull the shielding cloth and the spring on the outside of the mounting shaft to pull the entire shielding cloth until it is attracted to the magnetic pad. The shielding cloth will then cover the side surface of the glass plate. The sunlight will be reflected outward by the shielding cloth, which is coated with a light-reflecting coating, reducing direct sunlight into the room and preventing the temperature from rising too quickly.

[0015] 2. When the aluminum alloy window is pushed to the inner wall of the mounting frame, the window will be compressed by the window pressing plate, which will cause the spring to deform, thereby reducing the gap between the aluminum alloy window and the mounting frame. Attached Figure Description

[0016] Figure 1 This is a schematic diagram of a thermal insulation structure for doors and windows;

[0017] Figure 2 An exploded view of an aluminum alloy window in a door and window insulation structure;

[0018] Figure 3 This is a partially enlarged schematic diagram of an interrupted bridge glass frame, a type of thermal insulation structure for doors and windows.

[0019] Figure 4 This is a partially enlarged schematic diagram of the installation frame in the thermal insulation structure of a door or window.

[0020] In the diagram: 1. Mounting frame; 2. Aluminum alloy window; 3. Switch guide block; 4. Drain hole; 101. Window extrusion plate; 102. Spring; 201. Thermal break glass frame; 202. Mounting slot; 203. Glass plate; 204. Switch guide groove; 205. Pull plate; 206. Magnetic pad; 207. Thermal break channel; 208. Mounting shaft; 209. Spring-loaded spring; 210. Covering cloth. Detailed Implementation

[0021] 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.

[0022] like Figure 1-4 As shown, this embodiment provides a thermal insulation structure for doors and windows, including a mounting frame 1. An aluminum alloy window 2 is disposed inside the mounting frame 1. The aluminum alloy window 2 includes a thermally broken glass frame 201 and a glass panel 203. An mounting groove 202 is installed on the inner side wall of the thermally broken glass frame 201 corresponding to the outer side of the glass panel 203. A sealing strip is installed between the glass panel 203 and the mounting groove 202. A thermally broken glass channel 207 is disposed inside the thermally broken glass frame 201. An mounting shaft 208 is installed inside the thermally broken glass channel 207. The mounting shaft 208 and... The thermally broken glass frame 201 is fixedly connected. A spring 209 is installed on the outside of the mounting shaft 208. A shielding cloth 210 is connected to the end of the spring 209. The shielding cloth 210 is coated with a reflective coating on the side near the glass plate 203. A pull plate 205 is connected to the lower end of the shielding cloth 210. The shielding cloth 210, the pull plate 205, and the spring 209 are all fixedly connected. Magnetic pads 206 are arrayed and installed on the inner side wall of the thermally broken glass frame 201 directly below the pull plate 205. The pull plate 205 and the magnetic pads 206 are magnetically fixedly connected.

[0023] like Figure 2-3 As shown, in this embodiment, a switch guide groove 204 is provided on the outer side wall of the thermally broken glass frame 201, and a switch guide block 3 is installed on the inner side wall of the mounting frame 1 at the position corresponding to the switch guide groove 204. The aluminum alloy window 2 is slidably connected to the switch guide block 3 through the switch guide groove 204. A drainage hole 4 is provided on the side of the mounting frame 1 near the magnetic pad 206. A spring 102 is installed on the inner side wall of the mounting frame 1, and a window pressing plate 101 is installed at the end of the spring 102. The window pressing plate 101 is fixedly connected to the mounting frame 1 through the spring 102.

[0024] The working principle of this utility model is as follows: During use, the glass plate 203 is inserted into the mounting slot 202 on the inner wall of the thermally broken glass frame 201, and then installed using sealing glue. The installed aluminum alloy window 2 is then positioned using the outer switch guide groove 204, which corresponds to the switch guide block 3 inside the mounting frame 1. The switch guide groove 204 slides on the outer side of the switch guide block 3 to control the opening and closing. When the aluminum alloy window 2 is pushed to the inner wall position of the mounting frame 1, the aluminum alloy window 2 will press against the window pressing plate 101, compressing the spring 102. The force causes deformation, thereby reducing the gap between the aluminum alloy window 2 and the mounting frame 1. At the same time, when the sunlight is strong, the pull plate 205 is pulled down, which pulls the shielding cloth 210 and the spring 209 to rotate on the outside of the mounting shaft 208. The pull plate 205 is pulled as a whole and is attracted to the magnetic pad 206. The shielding cloth 210 then covers the side surface of the glass plate 203. The sunlight is reflected outward by the shielding cloth 210, which is coated with a light-reflecting coating, reducing direct sunlight inside the room and preventing the temperature from rising too quickly.

[0025] It should be noted that, in this document, relational terms such as "first" and "second" are used only to distinguish one entity or operation from another entity or operation, and do not necessarily require or imply any such actual relationship or order between these entities or operations. Moreover, the terms "comprising," "including," or any other variations thereof are intended to cover non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements includes not only those elements but also other elements not expressly listed, or elements inherent to such process, method, article, or apparatus.

[0026] Although embodiments of the present invention have been shown and described, 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 thermal insulation structure for doors and windows, comprising an installation frame (1), characterized in that, An aluminum alloy window (2) is provided inside the mounting frame (1). The aluminum alloy window (2) includes: a thermal break glass frame (201) and a glass panel (203). The inner sidewall of the thermal break glass frame (201) is provided with a mounting slot (202) corresponding to the outer sidewall of the glass panel (203). A thermal break channel (207) is provided inside the thermal break glass frame (201). An mounting shaft (208) is installed inside the thermal break channel (207). A spring (209) is installed on the outer sidewall of the mounting shaft (208). A shielding cloth (210) is connected to the end of the spring (209). A pull plate (205) is connected to the lower end of the shielding cloth (210). Magnetic pads (206) are arrayed and installed directly below the pull plate (205) on the inner sidewall of the thermal break glass frame (201).

2. The thermal insulation structure for doors and windows according to claim 1, characterized in that, The outer side wall of the broken glass frame (201) is provided with a switch guide groove (204), and the inner side wall of the mounting frame (1) is provided with a switch guide block (3) corresponding to the position of the switch guide groove (204).

3. The thermal insulation structure for doors and windows according to claim 1, characterized in that, The mounting frame (1) has a drainage hole (4) on the side near the magnetic pad (206), and a spring (102) is installed on the inner wall of the mounting frame (1), with a window pressing plate (101) installed at the end of the spring (102).

4. The thermal insulation structure for doors and windows according to claim 1, characterized in that, A sealing strip is installed between the glass plate (203) and the mounting slot (202), and the pull plate (205) is magnetically fixed to the magnetic pad (206).

5. The thermal insulation structure for doors and windows according to claim 1, characterized in that, The shielding cloth (210) is fixedly connected to the pull plate (205) and the spring (209), and the mounting shaft (208) is fixedly connected to the thermally broken glass frame (201).

6. The thermal insulation structure for doors and windows according to claim 2, characterized in that, The aluminum alloy window (2) is slidably connected to the switch guide block (3) through the switch guide groove (204).

7. The thermal insulation structure for doors and windows according to claim 1, characterized in that, The shielding cloth (210) is coated with a reflective coating on the side closest to the glass plate (203).

8. The thermal insulation structure for doors and windows according to claim 3, characterized in that, The window pressing plate (101) is fixedly connected to the mounting frame (1) by the spring (102).