A thermal door connecting window structure
By rationally arranging the profiles and using thermal insulation components and sealing strips, the problem of insufficient thermal insulation and sealing in traditional doors and windows has been solved, achieving efficient thermal insulation, sealing and structural strength improvement, ensuring stable indoor temperature and safety.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- IMPROVE ELECTRONICS TECH CO LTD JIAXING
- Filing Date
- 2025-04-23
- Publication Date
- 2026-06-09
AI Technical Summary
Traditional doors and windows have shortcomings in terms of heat insulation, sealing and durability, leading to heat exchange and air leakage, which affects the stability and safety of indoor temperature.
The design employs a rational layout of multiple vertical and horizontal profiles, combined with the ingenious design of thermal insulation components and sealing strips, to form a multi-layered sealing structure. Steel is used to enhance the structural strength.
It achieves high-efficiency thermal insulation and sealing performance, prevents air and moisture leakage, improves energy-saving effect, and enhances structural stability and safety.
Smart Images

Figure CN224338869U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of door and window technology, specifically to a door and window insulated structure. Background Technology
[0002] In the field of building doors and windows, traditional door-and-window structures have many shortcomings in terms of heat insulation, sealing, and durability. Firstly, poor sealing performance easily leads to heat exchange and air leakage, affecting indoor temperature stability and energy efficiency. Secondly, insufficient structural strength makes them unable to withstand significant wind pressure and external impacts, posing safety hazards. Furthermore, the lack of effective heat insulation design results in rapid heat conduction, affecting indoor comfort. At the same time, the installation and maintenance of traditional doors and windows are complex, increasing construction and subsequent maintenance costs.
[0003] Based on the above, this utility model proposes a door-insulating window structure, which can effectively solve the above problems. Utility Model Content
[0004] The purpose of this invention is to provide a door-and-window insulated structure. This structure is easy to use, achieving high-efficiency insulation and sealing performance through a rational layout of multiple vertical and horizontal profiles, combined with the ingenious design of insulation components and sealing strips. The multi-layered sealing structure effectively prevents air and moisture leakage, improving energy efficiency; the use of insulation components significantly reduces heat conduction, maintaining a stable indoor temperature; and the selection of steel enhances structural strength and durability, ensuring stability and safety during long-term use.
[0005] This utility model is achieved through the following technical solution:
[0006] A door-and-window structure includes, from left to right, a first vertical profile, a second vertical profile, a third vertical profile, a fourth vertical profile, a fifth vertical profile, and a sixth vertical profile. A first horizontal profile connects the top of the first vertical profile and the top of the fifth vertical profile. A tenth horizontal profile connects the top of the fifth vertical profile and the top of the sixth vertical profile. A second horizontal profile connects the middle of the first vertical profile and the middle of the fifth vertical profile. A third horizontal profile connects the bottom of the first vertical profile and the bottom of the fifth vertical profile. Two opposing first windows are provided between the second vertical profile, the first horizontal profile, the fourth vertical profile, and the second horizontal profile. A rotatable second window is provided between the fifth vertical profile, the first horizontal profile, and the sixth vertical profile.
[0007] The first vertical profile, the second vertical profile, the third vertical profile, the fourth vertical profile, the fifth vertical profile, the first horizontal profile, the second horizontal profile, and the third horizontal profile are combined to form a first mounting frame, a second mounting frame, a third mounting frame, a fourth mounting frame, a fifth mounting frame, and a sixth mounting frame. Glass is installed inside each of the first mounting frame, the second mounting frame, the third mounting frame, the fourth mounting frame, the fifth mounting frame, and the sixth mounting frame.
[0008] The first window includes a seventh vertical profile, a fourth horizontal profile, an eighth vertical profile, and a fifth horizontal profile connected in sequence. The seventh vertical profile, the fourth horizontal profile, the eighth vertical profile, and the fifth horizontal profile are combined to form a seventh mounting frame, and glass is installed in the seventh mounting frame.
[0009] The second window includes a ninth vertical profile, a sixth horizontal profile, a tenth vertical profile, and a seventh horizontal profile arranged sequentially. An eighth horizontal profile and a ninth horizontal profile are connected between the ninth vertical profile and the tenth vertical profile. The ninth vertical profile, the sixth horizontal profile, the tenth vertical profile, the seventh horizontal profile, the eighth horizontal profile, and the ninth horizontal profile are combined to form an eighth mounting frame, a ninth mounting frame, and a tenth mounting frame. Glass is installed in each of the eighth mounting frame, the ninth mounting frame, and the tenth mounting frame.
[0010] The first vertical profile, the sixth vertical profile, the eighth vertical profile, the first horizontal profile, the third horizontal profile, the seventh horizontal profile, and the tenth horizontal profile all include a first L-shaped frame, a first heat insulation component, and a first vertical frame connected in sequence. A first sealing groove is provided on the first L-shaped frame, and a first sealing strip is provided in the first sealing groove. The first vertical frame of the first vertical profile, the eighth vertical profile, the first horizontal profile, the third horizontal profile, and the seventh horizontal profile are all provided with a first bolt. A first buckle is snapped onto the first bolt, and a second sealing strip is sandwiched between the first buckle and the glass. The first horizontal profile located between the first vertical profile and the second vertical profile, and the first horizontal profile located between the fourth vertical profile and the fifth vertical profile, are also provided with a first bolt on the side of their first vertical frame. A first buckle is snapped onto the first bolt, and a second sealing strip is sandwiched between the first buckle and the glass.
[0011] The purpose of this invention is to provide a door-and-window insulated structure. This structure is easy to use, achieving high-efficiency insulation and sealing performance through a rational layout of multiple vertical and horizontal profiles, combined with the ingenious design of insulation components and sealing strips. The multi-layered sealing structure effectively prevents air and moisture leakage, improving energy efficiency; the use of insulation components significantly reduces heat conduction, maintaining a stable indoor temperature; and the selection of steel enhances structural strength and durability, ensuring stability and safety during long-term use.
[0012] Preferably, the second vertical profile, the third vertical profile, the fourth vertical profile, the ninth vertical profile, the tenth vertical profile, the second horizontal profile, the sixth horizontal profile, the eighth horizontal profile, and the ninth horizontal profile all include a T-shaped frame, a second heat insulation component, and a second vertical frame connected in sequence. The T-shaped frame has a second sealing groove, and a third sealing strip is provided in the second sealing groove. A second bolt is provided on one side of the second vertical frame, and a second fastener is snapped onto the second bolt. A fourth sealing strip is sandwiched between the second fastener and the glass. A third bolt is provided on the other side of the second vertical frame of the second vertical profile and the fourth vertical profile located below the second horizontal profile. A third fastener is snapped onto the third bolt. A third bolt is provided on the other side of the second vertical frame of the third vertical profile, and a third fastener is snapped onto the third bolt. A fifth sealing strip is sandwiched between the third fastener and the glass.
[0013] Preferably, the fifth vertical profile, the seventh vertical profile, the fourth horizontal profile, and the fifth horizontal profile each include a second L-shaped frame, a third heat insulation component, and a third L-shaped frame connected in sequence. The second L-shaped frame and the third L-shaped frame are centrally symmetrically arranged. A third sealing groove is provided on both the second L-shaped frame and the third L-shaped frame. A sixth sealing strip is provided in the third sealing groove. A fourth bolt is provided on the side of the third L-shaped frame away from the sixth sealing strip. A fourth fastener is snapped onto the fourth bolt. A seventh sealing strip is sandwiched between the fourth fastener and the glass.
[0014] Preferably, the top of the first L-shaped frame of the eighth vertical profile on the left side is provided with a first aluminum frame, the first aluminum frame is provided with a fourth sealing groove, and the fourth sealing groove is provided with an eighth sealing strip. The bottom of the first vertical frame of the eighth vertical profile on the right side is provided with a second aluminum frame, the second aluminum frame is provided with a fifth sealing groove, and the fifth sealing groove is provided with a ninth sealing strip.
[0015] Preferably, the materials of the first vertical profile, the second vertical profile, the third vertical profile, the fourth vertical profile, the fifth vertical profile, the sixth vertical profile, the seventh vertical profile, the eighth vertical profile, the ninth vertical profile, the tenth vertical profile, the first horizontal profile, the second horizontal profile, the third horizontal profile, the fourth horizontal profile, the fifth horizontal profile, the sixth horizontal profile, the seventh horizontal profile, the eighth horizontal profile, the ninth horizontal profile, and the tenth horizontal profile are all steel.
[0016] Preferably, the first heat insulation component, the second heat insulation component, and the third heat insulation component all include thermoplastic composite material, and the thermoplastic composite material is provided with multiple iron wires, which are used to connect the upper and lower profiles.
[0017] Preferably, the thermoplastic composite material is PA6GF30.
[0018] Compared with the prior art, this utility model has the following advantages and beneficial effects:
[0019] This utility model's insulated door and window structure is easy to use. Through the rational layout of multiple vertical and horizontal profiles, combined with the ingenious design of thermal insulation components and sealing strips, it achieves highly efficient thermal insulation and sealing performance. The multi-layer sealing structure effectively prevents air and moisture leakage, improving energy efficiency; the use of thermal insulation components significantly reduces heat conduction, maintaining a stable indoor temperature; and the selection of steel enhances structural strength and durability, ensuring stability and safety during long-term use. Attached Figure Description
[0020] Figure 1 This is a schematic diagram of the structure of this utility model;
[0021] Figure 2 for Figure 1 Schematic diagram of the cross-sectional structure at point AA;
[0022] Figure 3 for Figure 1 Schematic diagram of the cross-sectional structure at point BB;
[0023] Figure 4 for Figure 1 Schematic diagram of the cross-sectional structure at point CC;
[0024] Figure 5 for Figure 1 Schematic diagram of the cross-sectional structure at point DD;
[0025] Figure 6 for Figure 1 Schematic diagram of the cross-sectional structure at the middle EE;
[0026] Figure 7 This is a structural schematic diagram of the first L-shaped frame, the first heat insulation component, and the first vertical frame of this utility model;
[0027] Figure 8 This is a structural schematic diagram of the T-shaped frame, the second heat insulation component, and the second vertical frame described in this utility model;
[0028] Figure 9 This is a structural schematic diagram of the second L-shaped frame, the third heat insulation component, and the third L-shaped frame of this utility model;
[0029] Figure 10 This is a front view structural diagram of the first, second, and third heat insulation components of this utility model;
[0030] Figure 11 This is a side view of the first, second, and third heat insulation components of this utility model. Detailed Implementation
[0031] To enable those skilled in the art to better understand the technical solution of this utility model, the preferred embodiments of this utility model are described below in conjunction with specific examples. However, it should be understood that the accompanying drawings are for illustrative purposes only and should not be construed as limiting this patent. For better illustration of this embodiment, some components in the drawings may be omitted, enlarged, or reduced, and do not represent the actual product dimensions. It is understandable that some well-known structures and their descriptions may be omitted in the drawings for those skilled in the art. The positional relationships described in the drawings are for illustrative purposes only and should not be construed as limiting this patent.
[0032] Example 1:
[0033] like Figures 1 to 11 As shown, this utility model provides a door-and-window structure, including a first vertical profile 1, a second vertical profile 2, a third vertical profile 3, a fourth vertical profile 4, a fifth vertical profile 5, and a sixth vertical profile 6 arranged sequentially from left to right. A first horizontal profile 7 is connected between the top of the first vertical profile 1 and the top of the fifth vertical profile 5. A tenth horizontal profile 8 is connected between the top of the fifth vertical profile 5 and the top of the sixth vertical profile 6. A second horizontal profile 9 is connected between the middle of the first vertical profile 1 and the middle of the fifth vertical profile 5. A third horizontal profile 10 is provided between the bottom of the first vertical profile 1 and the bottom of the fifth vertical profile 5. Two opposing first windows 11 are provided between the second vertical profile 2, the first horizontal profile 7, the fourth vertical profile 4, and the second horizontal profile 9. A rotatable second window 12 is provided between the fifth vertical profile 5, the first horizontal profile 7, and the sixth vertical profile 6.
[0034] The first vertical profile 1, the second vertical profile 2, the third vertical profile 3, the fourth vertical profile 4, the fifth vertical profile 5, the first horizontal profile 7, the second horizontal profile 9, and the third horizontal profile 10 are combined to form the first mounting frame 13, the second mounting frame 14, the third mounting frame 15, the fourth mounting frame 16, the fifth mounting frame 17, and the sixth mounting frame 18. Glass 19 is installed inside the first mounting frame 13, the second mounting frame 14, the third mounting frame 15, the fourth mounting frame 16, the fifth mounting frame 17, and the sixth mounting frame 18.
[0035] The first window 11 includes a seventh vertical profile 20, a fourth horizontal profile 21, an eighth vertical profile 22 and a fifth horizontal profile 23 connected in sequence. The seventh vertical profile 20, the fourth horizontal profile 21, the eighth vertical profile 22 and the fifth horizontal profile 23 are combined to form a seventh mounting frame 24, and glass 19 is installed in the seventh mounting frame 24.
[0036] The second window 12 includes a ninth vertical profile 25, a sixth horizontal profile 26, a tenth vertical profile 27, and a seventh horizontal profile 28 arranged sequentially. An eighth horizontal profile 29 and a ninth horizontal profile 30 are connected between the ninth vertical profile 25 and the tenth vertical profile 27. The ninth vertical profile 25, the sixth horizontal profile 26, the tenth vertical profile 27, the seventh horizontal profile 28, the eighth horizontal profile 29, and the ninth horizontal profile 30 are combined to form an eighth mounting frame 31, a ninth mounting frame 32, and a tenth mounting frame 33. Glass 19 is installed in each of the eighth mounting frame 31, the ninth mounting frame 32, and the tenth mounting frame 33.
[0037] The first vertical profile 1, the sixth vertical profile 6, the eighth vertical profile 22, the first horizontal profile 7, the third horizontal profile 10, the seventh horizontal profile 28, and the tenth horizontal profile 8 each include a first L-shaped frame 34, a first heat insulation component 35, and a first vertical frame 36 connected in sequence. A first sealing groove 37 is provided on the first L-shaped frame 34, and a first sealing strip 38 is provided within the first sealing groove 37. The sides of the first vertical frame 36 of the first vertical profile 1, the eighth vertical profile 22, the first horizontal profile 7, the third horizontal profile 10, and the seventh horizontal profile 28 are all... A first bolt 39 is provided, and a first fastening strip 40 is snapped onto the first bolt 39. A second sealing strip 41 is sandwiched between the first fastening strip 40 and the glass 19. The first horizontal profile 7 located between the first vertical profile 1 and the second vertical profile 2, and the first horizontal profile 7 located between the fourth vertical profile 4 and the fifth vertical profile 5, are also provided with first bolts 39 on the side of their first vertical frames 36. The first bolt 39 is snapped onto the first fastening strip 40, and a second sealing strip 41 is sandwiched between the first fastening strip 40 and the glass 19.
[0038] Example 2:
[0039] like Figures 1 to 11 As shown, this utility model provides a door-and-window structure, including a first vertical profile 1, a second vertical profile 2, a third vertical profile 3, a fourth vertical profile 4, a fifth vertical profile 5, and a sixth vertical profile 6 arranged sequentially from left to right. A first horizontal profile 7 is connected between the top of the first vertical profile 1 and the top of the fifth vertical profile 5. A tenth horizontal profile 8 is connected between the top of the fifth vertical profile 5 and the top of the sixth vertical profile 6. A second horizontal profile 9 is connected between the middle of the first vertical profile 1 and the middle of the fifth vertical profile 5. A third horizontal profile 10 is provided between the bottom of the first vertical profile 1 and the bottom of the fifth vertical profile 5. Two opposing first windows 11 are provided between the second vertical profile 2, the first horizontal profile 7, the fourth vertical profile 4, and the second horizontal profile 9. A rotatable second window 12 is provided between the fifth vertical profile 5, the first horizontal profile 7, and the sixth vertical profile 6.
[0040] The first vertical profile 1, the second vertical profile 2, the third vertical profile 3, the fourth vertical profile 4, the fifth vertical profile 5, the first horizontal profile 7, the second horizontal profile 9, and the third horizontal profile 10 are combined to form the first mounting frame 13, the second mounting frame 14, the third mounting frame 15, the fourth mounting frame 16, the fifth mounting frame 17, and the sixth mounting frame 18. Glass 19 is installed inside the first mounting frame 13, the second mounting frame 14, the third mounting frame 15, the fourth mounting frame 16, the fifth mounting frame 17, and the sixth mounting frame 18.
[0041] The first window 11 includes a seventh vertical profile 20, a fourth horizontal profile 21, an eighth vertical profile 22 and a fifth horizontal profile 23 connected in sequence. The seventh vertical profile 20, the fourth horizontal profile 21, the eighth vertical profile 22 and the fifth horizontal profile 23 are combined to form a seventh mounting frame 24, and glass 19 is installed in the seventh mounting frame 24.
[0042] The above structure provides the first window 11 with an independent mounting frame, ensuring the stability and sealing of the glass 19 installation. At the same time, the combination of profiles creates a good ventilation and lighting channel, further optimizing the function of the door and window combination.
[0043] The second window 12 includes a ninth vertical profile 25, a sixth horizontal profile 26, a tenth vertical profile 27, and a seventh horizontal profile 28 arranged sequentially. An eighth horizontal profile 29 and a ninth horizontal profile 30 are connected between the ninth vertical profile 25 and the tenth vertical profile 27. The ninth vertical profile 25, the sixth horizontal profile 26, the tenth vertical profile 27, the seventh horizontal profile 28, the eighth horizontal profile 29, and the ninth horizontal profile 30 are combined to form an eighth mounting frame 31, a ninth mounting frame 32, and a tenth mounting frame 33. Glass 19 is installed in each of the eighth mounting frame 31, the ninth mounting frame 32, and the tenth mounting frame 33.
[0044] The above structure enables the second window 12 to have multiple independent mounting frames, ensuring the stability and sealing of the glass 19 installation; at the same time, the combination of profiles forms a good ventilation and lighting channel, further optimizing the function of the door and window connection.
[0045] The first vertical profile 1, the sixth vertical profile 6, the eighth vertical profile 22, the first horizontal profile 7, the third horizontal profile 10, the seventh horizontal profile 28, and the tenth horizontal profile 8 each include a first L-shaped frame 34, a first heat insulation component 35, and a first vertical frame 36 connected in sequence. A first sealing groove 37 is provided on the first L-shaped frame 34, and a first sealing strip 38 is provided within the first sealing groove 37. The sides of the first vertical frame 36 of the first vertical profile 1, the eighth vertical profile 22, the first horizontal profile 7, the third horizontal profile 10, and the seventh horizontal profile 28 are all... A first bolt 39 is provided, and a first fastening strip 40 is snapped onto the first bolt 39. A second sealing strip 41 is sandwiched between the first fastening strip 40 and the glass 19. The first horizontal profile 7 located between the first vertical profile 1 and the second vertical profile 2, and the first horizontal profile 7 located between the fourth vertical profile 4 and the fifth vertical profile 5, are also provided with first bolts 39 on the side of their first vertical frames 36. The first bolt 39 is snapped onto the first fastening strip 40, and a second sealing strip 41 is sandwiched between the first fastening strip 40 and the glass 19.
[0046] The rational layout of multiple vertical and horizontal profiles forms multiple mounting frames, ensuring the stability and sealing of the glass 19 installation. The design of the first window 11 and the second window 12 provides good ventilation and lighting functions, while the cooperation of sealing grooves and sealing strips effectively prevents air and moisture leakage. The rational layout and coordinated work of the various components give this door and window structure efficient and stable sealing performance and structural strength, meeting the requirements of high-quality building doors and windows.
[0047] The second vertical profile 2, the third vertical profile 3, the fourth vertical profile 4, the ninth vertical profile 25, the tenth vertical profile 27, the second horizontal profile 9, the sixth horizontal profile 26, the eighth horizontal profile 29, and the ninth horizontal profile 30 all include a T-shaped frame 42, a second heat insulation component 43, and a second vertical frame 44 connected in sequence. A second sealing groove 45 is provided on the T-shaped frame 42, and a third sealing strip 46 is provided within the second sealing groove 45. A second bolt 47 is provided on one side of the second vertical frame 44, and the second bolt 47 is fastened with a snap-fit connection. A second fastening strip 48 is provided, and a fourth sealing strip 49 is sandwiched between the second fastening strip 48 and the glass 19. A third bolt 50 is provided on the other side of the second vertical frame 44 of the second vertical profile 2 and the fourth vertical profile 4 located below the second horizontal profile 9. A third fastening strip 51 is snapped onto the third bolt 50. A third bolt 50 is provided on the other side of the second vertical frame 44 of the third vertical profile 3. A third fastening strip 51 is snapped onto the third bolt 50. A fifth sealing strip 52 is sandwiched between the third fastening strip 51 and the glass 19.
[0048] The combination of thermal insulation components, sealing grooves, and sealing strips further enhances the thermal insulation and sealing performance of the door and window assembly; the structural design of the T-shaped frame 42 and the second vertical frame 44 improves the strength and stability of the profile, ensuring reliability in long-term use; the setting of bolts and fasteners allows the fasteners to be quickly installed on the bolts, improving the installation efficiency of the glass.
[0049] Furthermore, in another embodiment, the fifth vertical profile 5, the seventh vertical profile 20, the fourth horizontal profile 21, and the fifth horizontal profile 23 each include a second L-shaped frame 53, a third heat insulation member 54, and a third L-shaped frame 55 connected in sequence. The second L-shaped frame 53 and the third L-shaped frame 55 are centrally symmetrically arranged. A third sealing groove 56 is provided on both the second L-shaped frame 53 and the third L-shaped frame 55. A sixth sealing strip 57 is provided in the third sealing groove 56. A fourth bolt 58 is provided on the side of the third L-shaped frame 55 away from the sixth sealing strip 57. A fourth fastening strip 59 is snapped onto the fourth bolt 58. A seventh sealing strip 60 is sandwiched between the fourth fastening strip 59 and the glass 19.
[0050] The combination of L-shaped frames and the use of thermal insulation components enhances the structural strength and thermal insulation performance of the profiles; the cooperation of the sealing groove and sealing strip further improves the sealing performance. The installation of bolts and fasteners allows for quick installation of the fasteners onto the bolts, improving the efficiency of glass installation.
[0051] Furthermore, in another embodiment, the top of the first L-shaped frame 34 of the eighth vertical profile 22 located on the left is provided with a first aluminum frame 61, the first aluminum frame 61 is provided with a fourth sealing groove 62, and the fourth sealing groove 62 is provided with an eighth sealing strip 63. The bottom of the first vertical frame 36 of the eighth vertical profile 22 located on the right is provided with a second aluminum frame 64, the second aluminum frame 64 is provided with a fifth sealing groove 65, and the fifth sealing groove 65 is provided with a ninth sealing strip 66.
[0052] The combination of aluminum frame, sealing groove, and sealing strip further enhances the sealing performance of the door and window, especially in areas prone to leakage such as the top and bottom, ensuring the overall structural sealing and stability.
[0053] Furthermore, in another embodiment, the materials of the first vertical profile 1, the second vertical profile 2, the third vertical profile 3, the fourth vertical profile 4, the fifth vertical profile 5, the sixth vertical profile 6, the seventh vertical profile 20, the eighth vertical profile 22, the ninth vertical profile 25, the tenth vertical profile 27, the first horizontal profile 7, the second horizontal profile 9, the third horizontal profile 10, the fourth horizontal profile 21, the fifth horizontal profile 23, the sixth horizontal profile 26, the seventh horizontal profile 28, the eighth horizontal profile 29, the ninth horizontal profile 30, and the tenth horizontal profile 8 are all steel.
[0054] The use of steel significantly improves the overall strength and durability of the door and window structure, effectively withstanding greater wind pressure and external impacts, ensuring stability and safety during long-term use. At the same time, steel also has good fire resistance and corrosion resistance, further enhancing the overall performance of the door and window structure and extending its service life.
[0055] Furthermore, in another embodiment, the first heat insulation member 35, the second heat insulation member 43, and the third heat insulation member 54 all include a thermoplastic composite material 68, on which a plurality of iron wires 67 are provided, and the iron wires 67 are used to connect the upper and lower profiles.
[0056] Thermoplastic composite material 68 has good thermal insulation properties, which can effectively reduce heat conduction and maintain stable indoor temperature; the setting of iron wire 67 enhances the structural strength of the thermal insulation component and ensures reliability in long-term use.
[0057] Furthermore, in another embodiment, the thermoplastic composite material 68 is of type PA6GF3070.
[0058] PA6GF3070 is a glass fiber reinforced nylon 6 material, which contains 30% glass fiber in nylon 6.
[0059] The use of steel significantly improves the overall strength and durability of the insulated door and window structure, effectively withstanding greater wind pressure and external impacts, ensuring stability and safety during long-term use. At the same time, steel also has good fire resistance and corrosion resistance, further enhancing the overall performance of the door and window structure and extending its service life.
[0060] Based on the description and drawings of this utility model, those skilled in the art can easily manufacture or use the insulated door and window structure of this utility model, and can produce the positive effects described in this utility model.
[0061] Unless otherwise specified, in this utility model, terms such as "length," "width," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," "clockwise," "counterclockwise," "axial," "radial," and "circumferential" indicate the orientation or positional relationship based on the orientation or positional relationship shown in the accompanying drawings. They are used only for the convenience of describing this utility model and simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation. Therefore, the terms used to describe orientation or positional relationships in this utility model are for illustrative purposes only and should not be construed as limiting this patent. For those skilled in the art, the specific meaning of the above terms can be understood in conjunction with the accompanying drawings and according to the specific circumstances.
[0062] Unless otherwise expressly specified and limited, the terms "set up," "connected," and "linked" in this utility model should be interpreted broadly. For example, they can refer to a fixed connection, a detachable connection, or an integral connection; they can refer to a direct connection or an indirect connection through an intermediate medium; and they can refer to the internal connection of two components. Those skilled in the art can understand the specific meaning of the above terms in this utility model based on the specific circumstances.
[0063] The above description is merely a preferred embodiment of the present utility model and is not intended to limit the present utility model in any way. Any simple modifications or equivalent changes made to the above embodiments based on the technical essence of the present utility model shall fall within the protection scope of the present utility model.
Claims
1. A thermally insulated door and window arrangement, characterized in that: The system includes a first vertical profile, a second vertical profile, a third vertical profile, a fourth vertical profile, a fifth vertical profile, and a sixth vertical profile arranged sequentially from left to right. A first horizontal profile connects the top of the first vertical profile and the top of the fifth vertical profile. A tenth horizontal profile connects the top of the fifth vertical profile and the top of the sixth vertical profile. A second horizontal profile connects the middle of the first vertical profile and the middle of the fifth vertical profile. A third horizontal profile is provided between the bottom of the first vertical profile and the bottom of the fifth vertical profile. Two opposing first windows are provided between the second vertical profile, the first horizontal profile, the fourth vertical profile, and the second horizontal profile. A rotatable second window is provided between the fifth vertical profile, the first horizontal profile, and the sixth vertical profile. The first vertical profile, the second vertical profile, the third vertical profile, the fourth vertical profile, the fifth vertical profile, the first horizontal profile, the second horizontal profile, and the third horizontal profile are combined to form a first mounting frame, a second mounting frame, a third mounting frame, a fourth mounting frame, a fifth mounting frame, and a sixth mounting frame. Glass is installed inside each of the first mounting frame, the second mounting frame, the third mounting frame, the fourth mounting frame, the fifth mounting frame, and the sixth mounting frame. The first window includes a seventh vertical profile, a fourth horizontal profile, an eighth vertical profile, and a fifth horizontal profile connected in sequence. The seventh vertical profile, the fourth horizontal profile, the eighth vertical profile, and the fifth horizontal profile are combined to form a seventh mounting frame, and glass is installed in the seventh mounting frame. The second window includes a ninth vertical profile, a sixth horizontal profile, a tenth vertical profile, and a seventh horizontal profile arranged sequentially. An eighth horizontal profile and a ninth horizontal profile are connected between the ninth vertical profile and the tenth vertical profile. The ninth vertical profile, the sixth horizontal profile, the tenth vertical profile, the seventh horizontal profile, the eighth horizontal profile, and the ninth horizontal profile are combined to form an eighth mounting frame, a ninth mounting frame, and a tenth mounting frame. Glass is installed in each of the eighth mounting frame, the ninth mounting frame, and the tenth mounting frame. The first vertical profile, the sixth vertical profile, the eighth vertical profile, the first horizontal profile, the third horizontal profile, the seventh horizontal profile, and the tenth horizontal profile all include a first L-shaped frame, a first heat insulation component, and a first vertical frame connected in sequence. A first sealing groove is provided on the first L-shaped frame, and a first sealing strip is provided in the first sealing groove. The first vertical frame of the first vertical profile, the eighth vertical profile, the first horizontal profile, the third horizontal profile, and the seventh horizontal profile are all provided with a first bolt. A first buckle is snapped onto the first bolt, and a second sealing strip is sandwiched between the first buckle and the glass. The first horizontal profile located between the first vertical profile and the second vertical profile, and the first horizontal profile located between the fourth vertical profile and the fifth vertical profile, are also provided with a first bolt on the side of their first vertical frame. A first buckle is snapped onto the first bolt, and a second sealing strip is sandwiched between the first buckle and the glass.
2. The thermally insulated door and transom window structure according to claim 1, characterized in that: The second, third, fourth, ninth, tenth, second, sixth, eighth, and ninth horizontal profiles each include a T-shaped frame, a second heat insulation component, and a second vertical frame connected in sequence. A second sealing groove is provided on the T-shaped frame, and a third sealing strip is provided within the second sealing groove. A second bolt is provided on one side of the second vertical frame, and a second fastener is snapped onto the second bolt. A fourth sealing strip is sandwiched between the second fastener and the glass. A third bolt is provided on the other side of the second vertical frame of the second and fourth vertical profiles located below the second horizontal profile, and a third fastener is snapped onto the third bolt. A third bolt is provided on the other side of the second vertical frame of the third vertical profile, and a third fastener is snapped onto the third bolt. A fifth sealing strip is sandwiched between the third fastener and the glass.
3. The thermally insulated door and transom window structure according to claim 1, characterized in that: The fifth vertical profile, the seventh vertical profile, the fourth horizontal profile, and the fifth horizontal profile all include a second L-shaped frame, a third heat insulation component, and a third L-shaped frame connected in sequence. The second L-shaped frame and the third L-shaped frame are centrally symmetrically arranged. A third sealing groove is provided on both the second L-shaped frame and the third L-shaped frame. A sixth sealing strip is provided in the third sealing groove. A fourth bolt is provided on the side of the third L-shaped frame away from the sixth sealing strip. A fourth buckle is snapped onto the fourth bolt. A seventh sealing strip is sandwiched between the fourth buckle and the glass.
4. The thermally insulated door and transom window structure according to claim 1, characterized in that: The eighth vertical profile located on the left side has a first aluminum frame at the top of the first L-shaped frame, a fourth sealing groove on the first aluminum frame, and an eighth sealing strip inside the fourth sealing groove. The eighth vertical profile located on the right side has a second aluminum frame at the bottom of the first vertical frame, a fifth sealing groove on the second aluminum frame, and a ninth sealing strip inside the fifth sealing groove.
5. The thermally insulated door and transom window structure according to claim 1, characterized in that: The first vertical profile, the second vertical profile, the third vertical profile, the fourth vertical profile, the fifth vertical profile, the sixth vertical profile, the seventh vertical profile, the eighth vertical profile, the ninth vertical profile, the tenth vertical profile, the first horizontal profile, the second horizontal profile, the third horizontal profile, the fourth horizontal profile, the fifth horizontal profile, the sixth horizontal profile, the seventh horizontal profile, the eighth horizontal profile, the ninth horizontal profile, and the tenth horizontal profile are all made of steel.
6. The thermally insulated door and window structure according to claim 2 or 3, characterized in that: The first, second, and third heat insulation components all include thermoplastic composite materials, and the thermoplastic composite materials are provided with multiple iron wires, which are used to connect the upper and lower profiles.
7. The thermally insulated door and transom window structure according to claim 6, characterized in that: The thermoplastic composite material is designated as PA6GF30.