Aluminum alloy super-low energy consumption bulletproof and explosion-proof safety window
By incorporating multi-layered bulletproof steel plate structures and bulletproof safety glass in key areas of aluminum alloy windows, and combining them with extended fireproof strips, the bulletproof and explosion-proof problems of traditional aluminum alloy windows in high-security scenarios have been solved, achieving higher structural strength and sealing performance.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- WUHU CONCH PROFILES AND SCIENCE CO LTD
- Filing Date
- 2025-06-24
- Publication Date
- 2026-07-03
AI Technical Summary
Traditional aluminum alloy inward-opening casement windows cannot provide the structural strength required for high-security scenarios. They lack protective structures on the exterior sides and cannot withstand violent impacts. Ordinary glass or general safety glass has poor bulletproof and explosion-proof performance.
The upper window frame, stile, sash, and lower window frame of the aluminum alloy window are equipped with a multi-layered bulletproof steel plate structure and bulletproof safety glass. Combined with extended fireproof rubber strips for sealing and protection, the outer cross-section is protected by steel plates or glass.
The bulletproof and explosion-proof performance of the windows has been improved, and the structural strength and sealing have been enhanced, which can effectively resist external impacts and ensure indoor safety.
Smart Images

Figure CN224452642U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of window technology, specifically to an aluminum alloy ultra-low energy consumption bulletproof and explosion-proof safety window. Background Technology
[0002] In the field of building doors and windows, traditional aluminum alloy inward casement windows are widely used to meet basic lighting, ventilation and enclosure needs, but with the improvement of safety requirements, their defects have become increasingly prominent. Traditional aluminum alloy inward casement windows cannot provide the structural strength required for high-safety scenarios, there is no protective structure design on the exterior side, and the cavity is not equipped with steel plates and other components, so they cannot withstand violent impacts. Ordinary glass or general safety glass is not bulletproof and has poor bulletproof and explosion-proof performance.
[0003] The applicant discovered through a search that Chinese patent document application number 201511034173.6, published on April 13, 2016, discloses a window switch and an intelligent window equipped with the window switch. The window switch includes: an opener / closer, fixedly connected to the window frame and the window, capable of manually or electrically controlling the opening and closing of the window; the opener / closer includes an adjustable friction clutch mechanism that uses friction to rotate the window relative to the window frame; and a locker, fixed to the window and connected to the window's lock, capable of manually or electrically controlling the locking and opening of the window, and providing a state switching signal for the opener / closer. This intelligent window includes the aforementioned window switch, which is electrically connected to a cloud-based intelligent control platform. The cloud-based intelligent control platform can electrically control the locking and opening / closing of the window via the window switch. However, this device also fails to solve the aforementioned technical problem.
[0004] Therefore, in order to improve or solve at least one of the above problems, it is necessary to provide an aluminum alloy ultra-low energy consumption bulletproof and explosion-proof safety window that can improve the bulletproof and explosion-proof performance of windows. Utility Model Content
[0005] The purpose of this invention is to provide an aluminum alloy ultra-low energy consumption bulletproof and explosion-proof safety window that can improve the bulletproof and explosion-proof performance of windows.
[0006] To solve the above-mentioned technical problems, the technical solution adopted by this utility model is as follows: an aluminum alloy ultra-low energy consumption bulletproof and explosion-proof safety window, including an upper window frame, a window stile, a window sash, and a lower window frame; a first bulletproof safety glass is provided between the upper window frame and the window stile; a second bulletproof safety glass is provided on the window sash; a first bulletproof steel plate structure is provided on the upper window frame; a second bulletproof steel plate structure is provided on one side of the window stile and the window sash; and a third bulletproof steel plate structure is provided on one side of the window sash and the lower window frame.
[0007] The first bulletproof steel plate structure includes an upper window frame steel plate mounting block; the upper window frame steel plate mounting block is located on the outdoor side of the upper window frame.
[0008] The upper window frame is provided with a first pressure strip; a first upper window frame fireproof strip is provided between the first pressure strip and the first bulletproof safety glass; a second upper window frame fireproof strip is provided between the upper window frame steel plate mounting block and the first bulletproof safety glass.
[0009] The second bulletproof steel plate structure includes a mullion steel plate mounting block; the mullion steel plate mounting block is located on the outdoor side of the mullion; the window sash includes an upper window sash profile; the mullion steel plate mounting block is located on one side of the upper window sash profile; the upper window sash profile includes an upper window sash profile insulation cavity; a first upper window sash steel plate mounting block is provided on one side of the upper window sash profile insulation cavity; a second upper window sash steel plate mounting block is provided on the side of the first upper window sash steel plate mounting block near the mullion steel plate mounting block.
[0010] The window stile is provided with a second pressure strip; a first fireproof strip is provided between the second pressure strip and the first bulletproof safety glass; a second fireproof strip is provided between the window stile steel plate mounting block and the first bulletproof safety glass.
[0011] The upper window sash profile is provided with a third pressure strip; a first upper window sash fireproof strip is provided between the third pressure strip and the second bulletproof safety glass; a second upper window sash fireproof strip is provided between the second upper window sash steel plate mounting block and the second bulletproof safety glass.
[0012] The window sash includes a lower window sash profile; the lower window sash profile includes a lower window sash insulation cavity; the third bulletproof steel plate structure includes a first lower window sash steel plate mounting block; a second lower window sash steel plate mounting block is provided on the side of the first lower window sash steel plate mounting block near the outside; a lower window frame steel plate mounting block is provided on one side of the lower window frame.
[0013] The lower window sash profile is provided with a fourth pressure strip; a first lower window sash fireproof strip is provided between the fourth pressure strip and the second bulletproof safety glass; a second lower window sash fireproof strip is provided between the second lower window sash steel plate mounting block and the second bulletproof safety glass.
[0014] The upper window frame steel plate mounting block, the window stile steel plate mounting block, the first upper window sash steel plate mounting block, the second upper window sash steel plate mounting block, the first lower window sash steel plate mounting block, the second lower window sash steel plate mounting block, and the lower window frame steel plate mounting block are all equipped with double-layer steel plates.
[0015] The first upper window frame fireproof strip, the second upper window frame fireproof strip, the first window stile fireproof strip, the second window stile fireproof strip, the first upper window sash fireproof strip, the second upper window sash fireproof strip, the first lower window sash fireproof strip, and the second lower window sash fireproof strip are all extended strips.
[0016] The beneficial effects of this utility model are as follows:
[0017] This utility model widens the dimensions of the upper window frame, window stile, window sash, and lower window frame, and provides a first bulletproof steel plate structure, a second bulletproof steel plate structure, and a third bulletproof steel plate structure on the outdoor side; at the same time, it is equipped with a first bulletproof safety glass and a second bulletproof safety glass to ensure that the outer cross section is protected by steel plates or bulletproof glass, and the outer side is equipped with extended fireproof rubber strips to ensure the bulletproof and explosion-proof performance of the entire window. Attached Figure Description
[0018] The specific embodiments of this utility model will be further described in detail below with reference to the accompanying drawings, wherein:
[0019] Figure 1 This is a schematic diagram of the structure of this utility model.
[0020] Figure 2 for Figure 1 A magnified view of section A in the image.
[0021] Figure 3 for Figure 1 A magnified view of section B in the image.
[0022] Figure 4 for Figure 1 A magnified view of section C in the image.
[0023] The markings in the above figures are all:
[0024] The diagram is marked as follows:
[0025] 1. Upper window frame,
[0026] 2. Window stiles,
[0027] 3. Window sash, 301, upper window sash profile, 302, lower window sash profile.
[0028] 4. Lower window frame,
[0029] 5. First-class bulletproof safety glass,
[0030] 6. Second bulletproof safety glass,
[0031] 7. Upper window frame steel plate mounting block; 701. First pressure strip; 702. First upper window frame fireproof strip; 703. Second upper window frame fireproof strip.
[0032] 8. Window stile steel plate mounting block; 801. Second pressure strip; 802. First window stile fireproof strip; 803. Second window stile fireproof strip.
[0033] 9. Insulation cavity for upper window sash profile; 901. First upper window sash steel plate mounting block; 902. Second upper window sash steel plate mounting block; 903. Third pressure strip; 904. First upper window sash fireproof strip; 905. Second upper window sash fireproof strip.
[0034] 10. Lower window sash insulation cavity; 101. First lower window sash steel plate mounting block; 102. Second lower window sash steel plate mounting block; 103. Fourth pressure strip; 104. First lower window sash fireproof strip; 105. Second lower window sash fireproof strip.
[0035] 11. Lower window frame steel plate mounting block,
[0036] 12. Double-layer steel plate. Detailed Implementation
[0037] The specific embodiments of this utility model will be further described in detail below with reference to the accompanying drawings, in order to help those skilled in the art to have a more complete, accurate and in-depth understanding of the utility model concept and technical solution, and to facilitate its implementation.
[0038] Figure 1-4 The aluminum alloy ultra-low energy consumption bulletproof and explosion-proof safety window shown includes an upper window frame 1, a window stile 2, a window sash 3, and a lower window frame 4; a first bulletproof safety glass 5 is installed between the upper window frame 1 and the window stile 2; a second bulletproof safety glass 6 is installed on the window sash 3; a first bulletproof steel plate structure is installed on the upper window frame 1; a second bulletproof steel plate structure is installed on one side of the window stile 2 and the window sash 3; and a third bulletproof steel plate structure is installed on one side of the window sash 3 and the lower window frame 4.
[0039] The dimensions of the upper window frame 1, window stile 2, window sash 3, and lower window frame 4 are widened, and a first bulletproof steel plate structure, a second bulletproof steel plate structure, and a third bulletproof steel plate structure are installed on the outdoor side; at the same time, a first bulletproof safety glass 5 and a second bulletproof safety glass 6 are installed to ensure that the outer cross section is protected by steel plates or bulletproof glass, and the outer side is equipped with extended fireproof rubber strips to ensure the bulletproof and explosion-proof performance of the entire window.
[0040] The first bulletproof steel plate structure includes an upper window frame steel plate mounting block 7; the upper window frame steel plate mounting block 7 is located on the outdoor side of the upper window frame 1.
[0041] The upper window frame steel plate mounting block 7 is located on the outdoor side of the upper window frame 1, and is fixedly connected to the upper window frame 1. The upper window frame steel plate mounting block 7 is equipped with a double-layer bulletproof steel plate. When subjected to external impacts such as gunshots or explosions, the upper window frame steel plate mounting block 7 and the upper window frame 1 share the external force, disperse and transmit the impact force, and enhance the overall strength and rigidity of the upper window frame 1. Together with the first bulletproof safety glass 5, it forms an effective protective barrier in the area of the upper window frame 1 to resist external impacts and protect indoor safety.
[0042] A first pressure strip 701 is provided on the upper window frame 1; a first upper window frame fireproof strip 702 is provided between the first pressure strip 701 and the first bulletproof safety glass 5; a second upper window frame fireproof strip 703 is provided between the upper window frame steel plate mounting block 7 and the first bulletproof safety glass 5.
[0043] The first pressure strip 701 presses and fixes the first bulletproof safety glass 5 to the upper window frame 1, ensuring the stability and reliability of the installation of the first bulletproof safety glass 5 and preventing it from loosening or shifting when subjected to external impact. The first upper window frame fireproof strip 702 is set between the first pressure strip 701 and the first bulletproof safety glass 5, playing a sealing role to prevent rainwater, dust, etc. from entering. In the event of a fire, it can effectively prevent flames, high temperatures, and smoke from spreading through the gap between the first pressure strip 701 and the first bulletproof safety glass 5 due to its own fireproof properties. The second upper window frame fireproof strip 703 is set between the upper window frame steel plate mounting block 7 and the first bulletproof safety glass 5, playing a sealing role in daily use and improving the airtightness and watertightness of the window. In a fire, it uses its high temperature resistance and flame-retardant properties to block the transmission of flames and heat through the gap between the upper window frame steel plate mounting block 7 and the first bulletproof safety glass 5, thereby enhancing the fire resistance of the upper window frame 1 area.
[0044] The second bulletproof steel plate structure includes a mullion steel plate mounting block 8; the mullion steel plate mounting block 8 is located on the outdoor side of the mullion 2; the window sash 3 includes an upper window sash profile 301; the mullion steel plate mounting block 8 is located on one side of the upper window sash profile 301; the upper window sash profile 301 includes an upper window sash profile insulation cavity 9; a first upper window sash steel plate mounting block 901 is provided on one side of the upper window sash profile insulation cavity 9; a second upper window sash steel plate mounting block 902 is provided on the side of the first upper window sash steel plate mounting block 901 near the mullion steel plate mounting block 8.
[0045] The mullion steel plate mounting block 8 is located on the outdoor side of the mullion 2. The mullion steel plate mounting block 8 contains a double-layer bulletproof steel plate. By being fixedly connected to the mullion 2, it disperses and transmits external impact force to the mullion 2, thereby enhancing the protective strength of the mullion 2. The mullion steel plate mounting block 8 is also located on one side of the upper window sash profile 301, so that the mullion 2 and the window sash 3 form an integrated protective structure after the bulletproof steel plate is installed, jointly resisting external impact. The second upper window sash steel plate mounting block 902 is located on the side of the first upper window sash steel plate mounting block 901 near the mullion steel plate mounting block 8, so that the window sash 3 and the mullion 2 form a tightly fitted protective system, which effectively improves the bulletproof and explosion-proof performance of the entire window when subjected to external forces such as gunshots and explosive impacts.
[0046] A second pressure strip 801 is provided on the window stile 2; a first fireproof strip 802 is provided between the second pressure strip 801 and the first bulletproof safety glass 5; a second fireproof strip 803 is provided between the window stile steel plate mounting block 8 and the first bulletproof safety glass 5.
[0047] The second pressure strip 801 securely fixes the first bulletproof safety glass 5 to the mullion 2, ensuring that the first bulletproof safety glass 5 remains stable during daily use and under external impact, preventing displacement or detachment. The first mullion fireproof strip 802 is located between the second pressure strip 801 and the first bulletproof safety glass 5, achieving a seal and preventing rainwater and dust from entering. In the event of a fire, its flame-retardant and high-temperature resistant properties effectively prevent flames, high temperatures, and smoke from spreading through the gap between the second pressure strip 801 and the first bulletproof safety glass 5. The second mullion fireproof strip 803 is located between the mullion steel plate mounting block 8 and the first bulletproof safety glass 5. In normal use, it enhances the airtightness and watertightness of the window. In a fire scenario, its fireproof material blocks the transmission of flames and heat through the gap between the mullion steel plate mounting block 8 and the first bulletproof safety glass 5, enhancing the structural stability, sealing, and fire resistance of the mullion 2 area, and ensuring the overall safety of the window.
[0048] A third pressure strip 903 is provided on the upper window sash profile 301; a first upper window sash fireproof strip 904 is provided between the third pressure strip 903 and the second bulletproof safety glass 6; a second upper window sash fireproof strip 905 is provided between the second upper window sash steel plate mounting block 902 and the second bulletproof safety glass 6.
[0049] The third pressure strip 903 firmly fixes the second bulletproof safety glass 6 to the upper window sash profile 301, ensuring the stability of the second bulletproof safety glass 6 under normal use and external impact, and preventing the second bulletproof safety glass 6 from shaking or falling off. The first upper window sash fireproof strip 904 is located between the third pressure strip 903 and the second bulletproof safety glass 6, and normally provides a sealing function to prevent rainwater and dust from entering. In the event of a fire, it effectively prevents flames, high temperatures and smoke from spreading through the gap between the third pressure strip 903 and the second bulletproof safety glass 6 by relying on its own fireproof properties. The second upper window sash fireproof strip 905 is located between the second upper window sash steel plate mounting block 902 and the second bulletproof safety glass 6. Normally, it plays a sealing role in improving the airtightness and watertightness of the window. In a fire scenario, it uses its high temperature resistant and flame-retardant material to block the transmission of flames and heat through the gap between the second upper window sash steel plate mounting block 902 and the second bulletproof safety glass 6, thereby enhancing the structural stability, sealing performance and fire resistance of the upper window sash profile 301 area.
[0050] The window sash 3 includes a lower window sash profile 302; the lower window sash profile 302 includes a lower window sash insulation cavity 10; the third bulletproof steel plate structure includes a first lower window sash steel plate mounting block 101; a second lower window sash steel plate mounting block 102 is provided on the side of the first lower window sash steel plate mounting block 101 near the outside; a lower window frame steel plate mounting block 11 is provided on one side of the lower window frame 4.
[0051] The first lower window sash steel plate mounting block 101 and the second lower window sash steel plate mounting block 102 are equipped with double-layer bulletproof steel plates. The second lower window sash steel plate mounting block 102, which is closer to the outside, works in conjunction with the first lower window sash steel plate mounting block 101 to make the lower window sash profile 302 form a more robust protective structure and improve bulletproof capability. The lower window frame steel plate mounting block 11 works in conjunction with the first lower window sash steel plate mounting block 101 and the second lower window sash steel plate mounting block 102 to make the window sash 3 and the lower window frame 4 form an integrated protective system. When subjected to external impacts such as gunshots and explosions, the impact force is dispersed and transmitted, thereby effectively improving the bulletproof and explosion-proof performance of the lower part of the entire window and ensuring indoor safety.
[0052] A fourth pressure strip 103 is provided on the lower window sash profile 302; a first lower window sash fireproof strip 104 is provided between the fourth pressure strip 103 and the second bulletproof safety glass 6; a second lower window sash fireproof strip 105 is provided between the second lower window sash steel plate mounting block 102 and the second bulletproof safety glass 6.
[0053] The fourth pressure strip 103 securely fixes the second bulletproof safety glass 6 to the lower window sash profile 302, ensuring the stability of the second bulletproof safety glass 6 during daily use and preventing it from loosening or falling off when subjected to external forces such as impacts, thus ensuring the reliability of its protective function. The first lower window sash fireproof strip 104 is located between the fourth pressure strip 103 and the second bulletproof safety glass 6, providing a seal under normal conditions to effectively prevent rainwater, dust, and other external debris from entering the room. In the event of a fire, its fire-retardant properties effectively prevent flames, high temperatures, and smoke from passing through the fourth pressure strip 103 and the second bulletproof safety glass 6. The fireproof strip 105 is installed between the second lower window sash steel plate mounting block 102 and the second bulletproof safety glass 6. It can improve the airtightness and watertightness of the window and optimize the sealing performance of the window in a fire. In a fire scenario, its flame-retardant and high-temperature resistant material properties can block the transmission of flames and heat through the gap between the second lower window sash steel plate mounting block 102 and the second bulletproof safety glass 6. The fourth pressure strip 103, the first lower window sash fireproof strip 104 and the second lower window sash fireproof strip 105 work together to significantly enhance the structural stability, sealing performance and fire safety performance of the lower window sash profile 302 area.
[0054] Double-layer steel plates 12 are provided in the upper window frame steel plate mounting block 7, the window stile steel plate mounting block 8, the first upper window sash steel plate mounting block 901, the second upper window sash steel plate mounting block 902, the first lower window sash steel plate mounting block 101, the second lower window sash steel plate mounting block 102, and the lower window frame steel plate mounting block 11.
[0055] The fireproof rubber strips 702 (first upper window frame), 703 (second upper window frame), 802 (first stile), 803 (second stile), 904 (first upper window sash), 905 (second upper window sash), 104 (first lower window sash), and 105 (second lower window sash) are all extended rubber strips.
[0056] The specific workflow of this utility model is as follows:
[0057] The dimensions of the upper window frame 1, window stile 2, window sash 3, and lower window frame 4 are widened, and a first bulletproof steel plate structure, a second bulletproof steel plate structure, and a third bulletproof steel plate structure are installed on the outdoor side; at the same time, a first bulletproof safety glass 5 and a second bulletproof safety glass 6 are installed to ensure that the outer cross section is protected by steel plates or bulletproof glass, and the outer side is equipped with extended fireproof rubber strips to ensure the bulletproof and explosion-proof performance of the entire window.
[0058] The present invention has been described above by way of example with reference to the accompanying drawings. Obviously, the specific implementation of the present invention is not limited to the above-described manner. Any non-substantial improvements made using the inventive concept and technical solution of the present invention; or the direct application of the inventive concept and technical solution to other situations without modification, are all within the protection scope of the present invention.
Claims
1. An ultra-low energy ballistic and blast resistant security window of an aluminum alloy characterized in that: It includes an upper window frame (1), a window stile (2), a window sash (3), and a lower window frame (4); a first bulletproof safety glass (5) is provided between the upper window frame (1) and the window stile (2); a second bulletproof safety glass (6) is provided on the window sash (3); a first bulletproof steel plate structure is provided on the upper window frame (1); a second bulletproof steel plate structure is provided on one side of the window stile (2) and the window sash (3); and a third bulletproof steel plate structure is provided on one side of the window sash (3) and the lower window frame (4).
2. The aluminum alloy super low energy ballistic blast resistant security window according to claim 1, wherein: The first bulletproof steel plate structure includes an upper window frame steel plate mounting block (7); the upper window frame steel plate mounting block (7) is located on the outdoor side of the upper window frame (1).
3. The aluminum alloy super low energy ballistic blast resistant security window according to claim 2, wherein: The upper window frame (1) is provided with a first pressure strip (701); a first upper window frame fireproof strip (702) is provided between the first pressure strip (701) and the first bulletproof safety glass (5); a second upper window frame fireproof strip (703) is provided between the upper window frame steel plate mounting block (7) and the first bulletproof safety glass (5).
4. The aluminum alloy super low energy ballistic blast resistant security window according to claim 3, wherein: The second bulletproof steel plate structure includes a mullion steel plate mounting block (8); the mullion steel plate mounting block (8) is located on the outdoor side of the mullion (2); the window sash (3) includes an upper window sash profile (301); the mullion steel plate mounting block (8) is located on one side of the upper window sash profile (301); the upper window sash profile (301) includes an upper window sash profile insulation cavity (9); a first upper window sash steel plate mounting block (901) is provided on one side of the upper window sash profile insulation cavity (9); a second upper window sash steel plate mounting block (902) is provided on the side of the first upper window sash steel plate mounting block (901) near the mullion steel plate mounting block (8).
5. The aluminum alloy super low energy ballistic blast resistant security window according to claim 4, wherein: The window stile (2) is provided with a second pressure strip (801); a first window stile fireproof strip (802) is provided between the second pressure strip (801) and the first bulletproof safety glass (5); a second window stile fireproof strip (803) is provided between the window stile steel plate mounting block (8) and the first bulletproof safety glass (5).
6. The aluminum alloy super low energy ballistic blast resistant security window according to claim 5, wherein: A third pressure strip (903) is provided on the upper window sash profile (301); a first upper window sash fireproof strip (904) is provided between the third pressure strip (903) and the second bulletproof safety glass (6); a second upper window sash fireproof strip (905) is provided between the second upper window sash steel plate mounting block (902) and the second bulletproof safety glass (6).
7. The aluminum alloy super low energy ballistic blast resistant security window according to claim 6, wherein: The window sash (3) includes a lower window sash profile (302); the lower window sash profile (302) includes a lower window sash insulation cavity (10); the third bulletproof steel plate structure includes a first lower window sash steel plate mounting block (101); the first lower window sash steel plate mounting block (101) has a second lower window sash steel plate mounting block (102) on the side near the outside; the lower window frame (4) has a lower window frame steel plate mounting block (11) on one side.
8. An ultra-low energy ballistic blast-resistant security window of aluminum alloy as claimed in claim 7, wherein: The lower window sash profile (302) is provided with a fourth pressure strip (103); a first lower window sash fireproof strip (104) is provided between the fourth pressure strip (103) and the second bulletproof safety glass (6); a second lower window sash fireproof strip (105) is provided between the second lower window sash steel plate mounting block (102) and the second bulletproof safety glass (6).
9. The aluminum alloy, super low-E, blast and ballistic resistant security window of claim 8, wherein: The upper window frame steel plate mounting block (7), the window stile steel plate mounting block (8), the first upper window sash steel plate mounting block (901), the second upper window sash steel plate mounting block (902), the first lower window sash steel plate mounting block (101), the second lower window sash steel plate mounting block (102), and the lower window frame steel plate mounting block (11) are all equipped with double-layer steel plates (12); The first upper window frame fireproof strip (702), the second upper window frame fireproof strip (703), the first window stile fireproof strip (802), the second window stile fireproof strip (803), the first upper window sash fireproof strip (904), the second upper window sash fireproof strip (905), the first lower window sash fireproof strip (104), and the second lower window sash fireproof strip (105) are all extended strips.