External pressure line mounting structure and panoramic inward opening window

By using an external pressure line rotating installation structure, multiple locking points are formed by locking grooves and locking blocks, which solves the problem of excessive lines in traditional inward-opening windows, improves the stability and aesthetics of windows, and meets the transparent visual effect of modern buildings.

CN224469028UActive Publication Date: 2026-07-07GUANGDONG HUANGPAI CUSTOM HOME FURNISHING GRP CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
GUANGDONG HUANGPAI CUSTOM HOME FURNISHING GRP CO LTD
Filing Date
2025-07-01
Publication Date
2026-07-07

AI Technical Summary

Technical Problem

Traditional inward-opening windows have excessive interior molding lines, which affects the aesthetics and transparency of the windows and cannot meet the needs of modern architecture for a simple and transparent visual effect.

Method used

The window adopts an external pressure line rotating installation structure. By setting locking grooves and locking blocks on the window sash profile, the locking plate is inserted at an angle and abuts against the locking block to form multiple locking points. Combined with the tight contact between the glass and the pressure line plate, the stability and aesthetics of the window are ensured.

Benefits of technology

It significantly improves the overall aesthetics and transparency of the window, enhances the structural stability and sealing of the window, and meets the needs of modern buildings for panoramic inward-opening windows.

✦ Generated by Eureka AI based on patent content.

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Abstract

This utility model discloses an external pressure line installation structure and a panoramic inward-opening window, belonging to the field of door and window technology. The window sash profile has a locking groove, and a locking block is provided above the locking groove to reduce the extension width of the locking groove opening. The internal pressure line is integrally formed on the interior side of the window sash profile. The external pressure line includes an integrally formed locking plate and a pressure line plate. The locking plate can be inserted into the locking groove at an angle to the horizontal plane and can abut against the locking block to form a first locking point. The included angle between the pressure line plate and the locking plate is an obtuse angle, and the end of the pressure line plate facing the locking plate can abut against the surface of the window sash profile to form a second locking point. The glass is located between the internal pressure line and the pressure line plate, and the glass can abut against the pressure line plate to form a third locking point. This utility model can reduce the interior side lines of the window while ensuring the overall structural stability of the window.
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Description

Technical Field

[0001] This utility model relates to the field of door and window technology, and in particular to an external pressure line installation structure and a panoramic inward opening window. Background Technology

[0002] In the field of building doors and windows, traditional inward-opening windows typically employ a design with removable interior pressure lines (as shown in the attached image). Figure 1 (As shown). The main advantage of this design is its simple structure and easy installation, which allows for quick assembly of the window sash and fixation of the glass.

[0003] However, this traditional interior molding design also has some obvious drawbacks and shortcomings, specifically: The interior molding forms a distinct dividing line on the window sash profile, resulting in excessive lines and disrupting the visual integrity of the window frame and glass. This design significantly diminishes the overall aesthetic appeal of the window, especially noticeable in modern architecture that emphasizes simplicity and openness. Too many lines not only affect the window's appearance but may also clash with the interior design style, impacting the overall visual effect. Furthermore, the conventional interior molding installation structure is relatively bulky, increasing the volume of the window sash profile and reducing the proportion of glass. This limits the window's light transmission and transparency, failing to meet users' demands for higher lighting performance and a wider view. The shortcomings of this design are particularly evident in places with high lighting requirements, such as studies and living rooms. Utility Model Content

[0004] The purpose of this utility model is to provide an external pressure line installation structure and a panoramic inward opening window, which eliminates the traditional indoor pressure line, adopts an external pressure line rotation installation, and forms an interlocking structure with the card slot, which can reduce the indoor side lines of the window while ensuring the overall structural stability of the window.

[0005] In a first aspect, this utility model provides an external pressure wire mounting structure, comprising:

[0006] The window sash profile is provided with a locking groove, and a locking block is provided above the locking groove;

[0007] The inner pressure line is integrally formed and located on the indoor side of the window sash profile;

[0008] The outer pressure line includes an integrally formed locking plate and a pressure line plate. The locking plate can be inserted into the locking groove at an angle to the horizontal plane and can abut against the locking block to form a first locking point. The included angle between the pressure line plate and the locking plate is set at an obtuse angle. The end of the pressure line plate facing the locking plate can abut against the surface of the window sash profile to form a second locking point. The first locking point and the second locking point cooperate to restrict the pressure line plate from displacing in the vertical direction.

[0009] A glass element is disposed between the inner pressure line and the pressure plate. The glass element can abut against the pressure plate to form a third locking point, thereby restricting the pressure plate from displacing in the horizontal direction.

[0010] This utility model's external pressure line installation structure, by setting locking grooves and locking blocks on the window sash profile, allows the locking plate to be inserted at an angle and rotated until it abuts against the locking block, forming a stable first locking point. Simultaneously, the pressure line plate is tightly fitted to the surface of the window sash profile, forming a second locking point, effectively limiting the vertical displacement of the pressure line plate. Furthermore, the close contact between the glass and the pressure line plate forms a third locking point, further limiting the horizontal movement of the pressure line plate. This multi-locking mechanism significantly enhances the installation stability of the external pressure line, effectively preventing pressure line detachment due to external forces, and ensuring the safety and reliability of the window during long-term use. By eliminating the traditional indoor pressure line, the indoor window sash surface forms a continuous, flat plane, significantly improving the overall aesthetics of the window. The reduced window sash profile volume and increased glass ratio significantly improve transparency, achieving a panoramic inward-opening window effect and meeting the modern architectural pursuit of a simple and transparent visual effect.

[0011] Furthermore, the locking plate includes a connecting plate and an inclined plate. The connecting plate is located on the side of the pressure plate facing the glass, and the inclined plate is located on the side of the connecting plate facing the glass. The connecting plate can abut against the groove wall of the locking groove, and the inclined plate is used to insert into the locking groove and abut against the locking block.

[0012] Using the above technical solution, the connecting plate is located on the side of the pressure plate facing the glass, allowing it to fit tightly against the groove wall of the locking slot, forming a stable support structure. This design not only enhances the installation stability of the external pressure line but also further restricts the displacement of the pressure plate after fixing the glass, ensuring the reliability of the window during long-term use.

[0013] Furthermore, a first limiting block is provided on the side of the connecting plate facing away from the inclined plate, and a second limiting block is provided on the groove wall of the locking groove. The first limiting block can abut against the second limiting block to prevent the connecting plate from disengaging from the locking groove.

[0014] By employing the above technical solution, the mutual abutment of the first and second limiting blocks effectively restricts the displacement of the connecting plate within the locking groove, further enhancing the installation stability of the external pressure line. This design ensures that the connecting plate will not loosen or fall off due to external forces during long-term use, significantly improving the overall structural stability of the window.

[0015] Furthermore, the extension width of the first limiting block increases from near the pressure plate to far away from the pressure plate, and the extension width of the second limiting block decreases from near the pressure plate to far away from the pressure plate.

[0016] Using the above technical solution, the extension width of the first limiting block increases gradually from near the pressure plate to far away from the pressure plate, while the extension width of the second limiting block decreases gradually from near the pressure plate to far away from the pressure plate. This design allows the limiting blocks to fit more tightly upon contact, significantly enhancing the reliability and stability of the limiting mechanism.

[0017] Furthermore, a clearance space is formed between the connecting plate and the pressure plate to allow the tilting plate to adjust its position within the locking groove.

[0018] The aforementioned technical solution provides the necessary clearance between the pressure plate and the connecting plate for adjusting the tilting plate within the locking slot. This design makes the installation of the external pressure plate more flexible and easier to operate, especially when the locking plate is inserted into the locking slot, allowing for smoother adjustment and positioning.

[0019] Furthermore, a glass adhesive strip is provided on the side of the pressure plate facing the glass, and the pressure plate abuts against the glass through the glass adhesive strip.

[0020] By employing the above technical solution, the installation of the glass sealing strip between the pressure plate and the glass forms an elastic sealing layer, effectively preventing the penetration of rainwater, air, and dust. This sealing design significantly improves the window's waterproof, windproof, and dustproof performance, enhancing its overall airtightness.

[0021] Furthermore, the pressure plate has a fixing block on the side facing the glass adhesive strip, and the glass adhesive strip has a fixing block on the side facing the pressure plate. The fixing block is detachably disposed in the fixing slot.

[0022] The detachable design of the above-mentioned technical solution makes the installation of the glass sealing strip simpler and faster. During installation, the pressure plate can be installed onto the window sash profile first, and then the glass sealing strip can be fixed onto the pressure plate. This step-by-step installation method improves installation efficiency and reduces errors during the installation process.

[0023] Furthermore, the locking plate is provided with an abutting protrusion facing the locking block, and the abutting protrusion protrudes from the locking plate.

[0024] The aforementioned technical solution utilizes a prominent abutment protrusion, which facilitates easier position adjustment of the locking plate when it is inserted into the locking slot. This design significantly improves the ease of adjustment during installation, reducing installation time and labor intensity.

[0025] Furthermore, a sealant layer is provided between the glass and the window sash profile.

[0026] By employing the above technical solution, the use of a sealant layer ensures a tight bond between the glass and the window sash profile, forming a unified structure. This integrity significantly enhances the structural strength of the window sash, enabling it to better withstand external impacts and various stresses during long-term use. The sealant layer forms a sealing layer within the glass groove, effectively preventing the penetration of rainwater and air. This design significantly reduces the risk of water leakage at the window sash groove, ensuring the window's waterproof performance under various weather conditions.

[0027] Secondly, the present invention provides a panoramic inward-opening window, including any of the aforementioned external pressure line mounting structures.

[0028] As can be seen from the above, the external pressure line installation structure provided by this utility model, by setting a locking groove and a locking block on the window sash profile, allows the locking plate to be inserted at an angle and rotated until it abuts against the locking block, forming a stable first locking point. Simultaneously, the pressure line plate is tightly fitted to the surface of the window sash profile, forming a second locking point, effectively limiting the vertical displacement of the pressure line plate. Furthermore, the close contact between the glass and the pressure line plate forms a third locking point, further limiting the horizontal movement of the pressure line plate. This multi-locking mechanism significantly enhances the installation stability of the external pressure line, effectively preventing the pressure line from falling off due to external forces, and ensuring the safety and reliability of the window during long-term use. Because the traditional indoor pressure line is eliminated, the surface of the indoor window sash forms a continuous, flat plane, significantly improving the overall aesthetics of the window. The reduced window sash profile volume and increased glass ratio significantly improve transparency, achieving a panoramic inward-opening window effect and meeting the modern architectural pursuit of a simple and transparent visual effect.

[0029] Other features and advantages of this application will be set forth in the following description and will be apparent in part from the description or may be learned by practicing embodiments of this application. The objectives and other advantages of this application may be realized and obtained by means of the structures particularly pointed out in the written description and the accompanying drawings. Attached Figure Description

[0030] Figure 1 This is a schematic diagram of the interior plenum line of a traditional inward-opening window.

[0031] Figure 2 This is an exploded view of an external pressure wire installation structure proposed in this utility model.

[0032] Figure 3 for Figure 2 A schematic diagram of the structure in which the locking plate is adjusted within the locking groove.

[0033] Figure 4This is a schematic diagram of the assembly structure of an external pressure wire mounting structure proposed in this utility model.

[0034] Figure 5 for Figure 4 Enlarged structural diagram of area A of the middle and outer pressure line installation structure.

[0035] Figure 6 for Figure 5 A schematic diagram of the structure of the inner and outer pressure lines.

[0036] Figure 7 This is a schematic diagram of the assembly structure of another embodiment of the external pressure line installation structure proposed in this utility model.

[0037] In the attached diagram: 100, window sash profile; 110, locking groove; 111, second limiting block; 120, locking block; 200, inner pressure line; 300, outer pressure line; 310, locking plate; 311, connecting plate; 312, inclined plate; 313, first limiting block; 314, clearance space; 315, abutting protrusion; 320, pressure plate; 321, glass sealing strip; 322, fixing block; 323, fixing groove; 400, glass; 500, sealant layer. Detailed Implementation

[0038] The embodiments of this utility model are described in detail below. Examples of these embodiments are shown in the accompanying drawings, wherein the same or similar reference numerals denote the same or similar elements or elements having the same or similar functions throughout. The embodiments described below with reference to the accompanying drawings are exemplary and are only used to explain this utility model, and should not be construed as limiting this utility model.

[0039] The following disclosure provides many different embodiments or examples for implementing various structures of the present invention. To simplify the disclosure, specific examples of components and arrangements are described below. Of course, these are merely examples and are not intended to limit the scope of the invention. Furthermore, reference numerals and / or letters may be repeated in different examples; such repetition is for simplification and clarity and does not in itself indicate a relationship between the various embodiments and / or arrangements discussed.

[0040] The external pressure line installation structure disclosed in this utility model is mainly used in panoramic inward opening windows. By eliminating the traditional indoor pressure line and adopting an external pressure line rotation installation, and forming an interlocking structure with the slot, it can reduce the indoor side lines of the window while ensuring the overall structural stability of the window.

[0041] Reference Appendix Figure 2 Appendix Figure 3 Appendix Figure 4In one embodiment, the external pressure line mounting structure includes a window sash profile 100, an internal pressure line 200, an external pressure line 300, and glass 400. The window sash profile 100 is provided with a locking groove 110, and a locking block is provided above the locking groove 110; the inner pressure line 200 is integrally formed on the indoor side of the window sash profile 100; the outer pressure line 300 includes an integrally formed locking plate 310 and a pressure line plate 320. The locking plate 310 can be inserted into the locking groove 110 at an angle to the horizontal plane, and can abut against the locking block to form a first locking point; the included angle between the pressure line plate 320 and the locking plate 310 is set at an obtuse angle, and the end of the pressure line plate 320 facing the locking plate 310 can abut against the surface of the window sash profile 100 to form a second locking point. The first and second locking points cooperate to restrict the pressure line plate 320 from moving vertically; the glass 400 is disposed between the inner pressure line 200 and the pressure line plate 320, and the glass 400 can abut against the pressure line plate 320 to form a third locking point to restrict the pressure line plate 320 from moving horizontally.

[0042] As can be seen from the above, the external pressure line installation structure provided by this utility model, by setting a locking groove 110 and a locking block on the window sash profile 100, allows the locking plate 310 to be inserted at an angle and rotated to abut against the locking block, forming a stable first locking point. Simultaneously, the pressure line plate 320 is tightly fitted to the surface of the window sash profile 100, forming a second locking point, effectively limiting the vertical displacement of the pressure line plate 320. Furthermore, the close contact between the glass 400 and the pressure line plate 320 forms a third locking point, further limiting the horizontal movement of the pressure line plate 320. This multi-locking mechanism significantly enhances the installation stability of the external pressure line 300, effectively preventing the pressure line from falling off due to external forces, and ensuring the safety and reliability of the window during long-term use. Since the traditional indoor pressure line is eliminated, the indoor window sash surface forms a continuous flat plane, significantly improving the overall aesthetics of the window. The window sash profile is 100mm smaller in volume, while the glass is 400mm larger, significantly improving transparency and achieving a panoramic inward-opening window effect, thus meeting the modern architectural pursuit of a simple and transparent visual effect.

[0043] Reference Appendix Figure 3 Appendix Figure 4 Appendix Figure 5 In one embodiment, the locking plate 310 includes a connecting plate 311 and an inclined plate 312. The connecting plate 311 is disposed on the side of the pressure plate 320 facing the glass 400, and the inclined plate 312 is disposed on the side of the connecting plate 311 facing the glass 400. The connecting plate 311 can abut against the groove wall of the locking groove 110, and the inclined plate 312 is used to insert into the locking groove 110 and abut against the locking block.

[0044] With the above technical solution, the connecting plate 311 is located on the side of the pressure plate 320 facing the glass 400, and can fit tightly against the groove wall of the locking groove 110 to form a stable support structure. This design not only enhances the installation stability of the outer pressure line 300, but also further restricts the displacement of the pressure plate 320 after fixing the glass 400, ensuring the reliability of the window during long-term use.

[0045] Reference Appendix Figure 5 Appendix Figure 6 In one embodiment, the connecting plate 311 is provided with a first limiting block 313 on the side facing away from the inclined plate 312, and a second limiting block 111 is provided on the groove wall of the locking groove 110. The first limiting block 313 can abut against the second limiting block 111 to restrict the connecting plate 311 from disengaging from the locking groove 110.

[0046] By adopting the above technical solution, the mutual abutment of the first limiting block 313 and the second limiting block 111 effectively restricts the displacement of the connecting plate 311 within the locking groove 110, further enhancing the installation stability of the outer pressure line 300. This design ensures that the connecting plate 311 will not loosen or fall off due to external forces during long-term use, significantly improving the overall structural stability of the window.

[0047] In one embodiment, the extension width of the first limiting block 313 increases from near the pressure plate 320 to far away from the pressure plate 320, and the extension width of the second limiting block 111 decreases from near the pressure plate 320 to far away from the pressure plate 320.

[0048] Using the above technical solution, the extension width of the first limiting block 313 increases progressively from near the pressure plate 320 to far away from the pressure plate 320, while the extension width of the second limiting block 111 decreases progressively from near the pressure plate 320 to far away from the pressure plate 320. This design allows the limiting blocks to fit more tightly when in contact, significantly enhancing the reliability and stability of the limiting mechanism.

[0049] Reference Appendix Figure 3 Appendix Figure 6 In one embodiment, a clearance space 314 is formed between the connecting plate 311 and the pressure plate 320 so that the tilting plate 312 can be adjusted in position within the locking groove 110.

[0050] By adopting the above technical solution, the clearance space 314 formed between the pressure plate 320 and the connecting plate 311 provides the necessary space for the adjustment of the tilting plate 312 within the locking groove 110. This design makes the installation of the outer pressure plate 300 more flexible and easier to operate, especially when the locking plate 310 is inserted into the locking groove 110, it can be adjusted and positioned more smoothly.

[0051] Reference Appendix Figure 4 Appendix Figure 5 In one embodiment, the pressure plate 320 is provided with a glass adhesive strip 321 on the side facing the glass 400, and the pressure plate 320 abuts against the glass 400 through the glass adhesive strip 321.

[0052] By employing the above technical solution, the installation of the glass sealing strip 321 between the pressure plate 320 and the glass 400 forms an elastic sealing layer, effectively preventing the penetration of rainwater, air, and dust. This sealing design significantly improves the window's waterproof, windproof, and dustproof performance, enhancing its overall sealing performance.

[0053] In one embodiment, the pressure plate 320 is provided with a fixing block 322 on the side facing the glass adhesive strip 321, and the glass adhesive strip 321 is provided with a fixing groove 323 on the side facing the pressure plate 320. The fixing block 322 is detachably disposed in the fixing groove 323.

[0054] The detachable design of the above-mentioned technical solution makes the installation of the glass sealing strip 321 simpler and faster. During installation, the pressure plate 320 can be installed onto the window sash profile 100 first, and then the glass sealing strip 321 can be fixed onto the pressure plate 320. This step-by-step installation method improves installation efficiency and reduces errors during installation.

[0055] In one embodiment, the locking plate 310 is further provided with an abutting protrusion 315 facing the locking block, the abutting protrusion 315 protruding from the locking plate 310.

[0056] By adopting the above technical solution, the prominently designed abutment protrusion 315 allows for easier position adjustment of the locking plate 310 when it is inserted into the locking groove 110. This design significantly improves the ease of adjustment during installation and reduces installation time and labor intensity.

[0057] Reference Appendix Figure 7 In one embodiment, a sealant layer 500 is provided between the glass 400 and the window sash profile 100.

[0058] By employing the above technical solution, the use of sealant layer 500 ensures a tight bond between glass 400 and window sash profile 100, forming a unified structure. This integrity significantly enhances the structural strength of the window sash, enabling it to better withstand external impacts and various stresses during long-term use. Sealant layer 500 forms a sealing layer within the glass groove, effectively preventing the penetration of rainwater and air. This design significantly reduces the risk of water leakage at the window sash groove, ensuring the window's waterproof performance under various weather conditions.

[0059] This utility model also provides a panoramic inward-opening window, including the external pressure line mounting structure of any of the above embodiments.

[0060] In the description of this specification, the references to terms such as "one embodiment," "some embodiments," "illustrative embodiment," "example," "specific example," or "some examples," etc., indicate that a specific feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of this utility model. In this specification, the illustrative expressions of the above terms do not necessarily refer to the same embodiment or example. Furthermore, the specific features, structures, materials, or characteristics described may be combined in any suitable manner in one or more embodiments or examples.

[0061] The above descriptions are merely some embodiments of this utility model. For those skilled in the art, various modifications and improvements can be made without departing from the inventive concept of this utility model, and all such modifications and improvements fall within the protection scope of this utility model.

Claims

1. An external pressure wire mounting structure, characterized in that, include: The window sash profile (100) is provided with a locking groove (110), and a locking block (120) is provided above the locking groove (110). An inner pressure line (200) is integrally formed on the indoor side of the window sash profile (100); The outer pressure line (300) includes an integrally formed locking plate (310) and a pressure line plate (320). The locking plate (310) can be inserted into the locking groove (110) at an angle to the horizontal plane and can abut against the locking block (120) to form a first locking point. The included angle between the pressure line plate (320) and the locking plate (310) is set at an obtuse angle. One end of the pressure line plate (320) facing the locking plate (310) can abut against the surface of the window sash profile (100) to form a second locking point. The first locking point and the second locking point cooperate to restrict the pressure line plate (320) from moving in the vertical direction. A glass (400) is disposed between the inner pressure line (200) and the pressure plate (320). The glass (400) can abut against the pressure plate (320) to form a third locking point, thereby restricting the pressure plate (320) from moving in the horizontal direction.

2. The external pressure line mounting structure according to claim 1, characterized in that, The locking plate (310) includes a connecting plate (311) and an inclined plate (312). The connecting plate (311) is located on the side of the pressure plate (320) facing the glass (400), and the inclined plate (312) is located on the side of the connecting plate (311) facing the glass (400). The connecting plate (311) can abut against the groove wall of the locking groove (110), and the inclined plate (312) is used to insert into the locking groove (110) and abut against the locking block (120).

3. The external pressure line installation structure according to claim 2, characterized in that, The connecting plate (311) is provided with a first limiting block (313) on the side opposite to the inclined plate (312), and a second limiting block (111) is provided on the groove wall of the locking groove (110). The first limiting block (313) can abut against the second limiting block (111) to restrict the connecting plate (311) from disengaging from the locking groove (110).

4. The external pressure line mounting structure according to claim 3, characterized in that, The extension width of the first limiting block (313) increases from near the pressure plate (320) to far away from the pressure plate (320), and the extension width of the second limiting block (111) decreases from near the pressure plate (320) to far away from the pressure plate (320).

5. The external pressure line mounting structure according to claim 2, characterized in that, A clearance space (314) is formed between the connecting plate (311) and the pressure plate (320) so that the tilting plate (312) can adjust its position within the locking groove (110).

6. The external pressure line mounting structure according to claim 1, characterized in that, The pressure plate (320) has a glass adhesive strip (321) on the side facing the glass (400), and the pressure plate (320) abuts against the glass (400) through the glass adhesive strip (321).

7. The external pressure line mounting structure according to claim 6, characterized in that, The pressure plate (320) has a fixing block (322) on the side facing the glass strip (321), and the glass strip (321) has a fixing groove (323) on the side facing the pressure plate (320). The fixing block (322) is detachably disposed in the fixing groove (323).

8. The external pressure line mounting structure according to claim 1, characterized in that, The locking plate (310) is further provided with an abutting protrusion (315) facing the locking block (120), and the abutting protrusion (315) protrudes from the locking plate (310).

9. The external pressure line mounting structure according to claim 1, characterized in that, A sealant layer (500) is provided between the glass (400) and the window sash profile (100).

10. A panoramic inward-opening window, characterized in that, Includes the external pressure line mounting structure as described in any one of claims 1-9.