Sunshade function embedded glass curtain wall

By using a cylinder-driven sunshade system and light sensor control, the problem of the non-adjustable sunshade angle of traditional embedded glass curtain walls has been solved, realizing automatic adjustment of the sunshade and light balance, reducing energy consumption and improving indoor environmental comfort.

CN224468621UActive Publication Date: 2026-07-07ZHONGQIANG WEIYE CONSTR DEV CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
ZHONGQIANG WEIYE CONSTR DEV CO LTD
Filing Date
2025-06-24
Publication Date
2026-07-07

AI Technical Summary

Technical Problem

Traditional embedded glass curtain walls have fixed shading angles and poor shading effects, which affect lighting and increase energy consumption.

Method used

The pneumatically driven sunshade system transmits force through a rotating part, and combined with a light sensor and a flexible composite material sunshade with variable curvature, it achieves automatic adjustment and flexible angle control of the sunshade.

Benefits of technology

It enables the sunshade to automatically adjust according to changes in the angle of sunlight, ensuring all-weather sunshade effect, reducing indoor temperature, reducing air conditioning energy consumption, and improving indoor comfort and lighting balance.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model provides a kind of sunshade function's embedded glass curtain wall, including the curtain wall main body being installed in frame inside;The glass left and right sides of curtain wall main body are respectively connected with first rotating support by bolt;Sunshade board is rotatably connected between two rotating supports;The outer side wall of frame is provided with the cylinder for driving sunshade board rotation, force arm transmission is realized between cylinder and sunshade board by rotating part;The utility model passes through the force arm transmission of cylinder drive and rotating part, realizes the flexible adjustment of sunshade board angle;This design can be according to the change of sunshine angle, the angle of sunshade board is automatically adjusted, ensure all-weather sunshade effect;Since sunshade board can be automatically adjusted angle according to actual conditions, effectively reduce indoor temperature, reduce the use of refrigeration equipment such as air conditioner, to reduce the energy consumption of building.
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Description

Technical Field

[0001] This utility model relates to the field of embedded glass curtain walls, and more particularly to an embedded glass curtain wall with sunshade function. Background Technology

[0002] Embedded glass curtain walls, as an important element in modern architectural design, are widely used in commercial buildings, office buildings, and various public facilities due to their transparency and aesthetic appeal. These curtain walls not only provide excellent visual transparency and lighting effects but also effectively enhance the overall aesthetics and modernity of buildings. However, with the increasing prominence of global climate change and energy issues, how to improve the sun-shading and energy-saving performance of curtain walls while maintaining aesthetics and transparency has become a key issue that urgently needs to be addressed in the current curtain wall design field.

[0003] Traditional recessed glass curtain walls rely primarily on fixed shading components, such as louvers and sunshades, for sun shading. While these fixed shading components provide some degree of shading, they often suffer from issues such as non-adjustable shading angles, poor shading effectiveness, and reduced natural light. Especially in areas with strong and variable sunlight, fixed shading components often fail to meet all-weather shading needs, leading to excessively high indoor temperatures and intense sunlight. This not only affects indoor comfort but also increases the energy consumption of air conditioning and other cooling equipment. Utility Model Content

[0004] To address the problems of non-adjustable shading angle, poor shading effect, and reduced lighting in existing shading components, this utility model provides an embedded glass curtain wall with shading function.

[0005] The embedded glass curtain wall with sunshade function provided by this utility model adopts the following technical solution:

[0006] An embedded glass curtain wall with sunshade function includes a curtain wall body installed inside a frame; the left and right sides of the glass of the curtain wall body are respectively connected to the first rotating brackets by bolts; a sunshade is rotatably connected between the two rotating brackets; a cylinder for driving the rotation of the sunshade is provided on the outer wall of the frame, and the cylinder and the sunshade are connected by a rotating part to realize the transmission of force arm.

[0007] Furthermore, each of the first rotating brackets has a connecting clip inside via a rotating shaft; the connecting clip has a "U" shaped structure and is connected to the sunshade via bolts.

[0008] Furthermore, the cylinder is mounted on a frame on the upper side of any of the first rotating brackets; a second rotating bracket is bolted to the outer wall of the frame; the cylinder is rotatably connected inside the second rotating bracket; and is connected to the sunshade via a rotating part.

[0009] Furthermore, the rotating part includes a push rod and a connecting rod; one end of the push rod is fixedly connected to the output end of the cylinder; one end of the connecting rod is bolted to the edge of the sun visor; the other end of the connecting rod is rotatably connected to the other end of the push rod.

[0010] Furthermore, the connecting rod has a zigzag structure with an angle of 100-150°.

[0011] Furthermore, the outer wall of the frame is bolted with a housing that covers the outside of the cylinder;

[0012] Furthermore, a light sensor is provided on the back side of the sunshade, and the light sensor is electrically connected to the air circuit control valve of the cylinder through a controller.

[0013] Furthermore, the sunshade is made of a flexible composite material with variable curvature, and its edges are embedded with rigid reinforcing frames that cooperate with the rotating bracket.

[0014] In summary, the beneficial effects of this utility model are as follows:

[0015] This invention achieves flexible adjustment of the sunshade angle through cylinder drive and lever arm transmission of the rotating part. This design can automatically adjust the angle of the sunshade according to changes in the angle of sunlight, ensuring all-weather sunshade effect. The sunshade is made of flexible composite material with variable curvature, which can retain scattered light to the maximum extent while ensuring the sunshade effect, achieving a balance between sunshade and lighting. Since the sunshade can automatically adjust its angle according to the actual situation, it effectively reduces the indoor temperature and reduces the use of air conditioning and other cooling equipment, thereby reducing the building's energy consumption. Attached Figure Description

[0016] Figure 1 This is a schematic diagram of the overall structure of this utility model;

[0017] Figure 2 This is an enlarged schematic diagram of the rotating part of this utility model.

[0018] As shown in the figure: 1-Curtain wall main body, 11-Frame, 2-Sunshade, 21-Connecting rod, 3-Rotating part, 31-First rotating bracket, 32-Connecting clamp, 4-Second rotating bracket, 41-Cylinder, 42-Push rod, 5-Outer shell. Detailed Implementation

[0019] The following is in conjunction with the appendix Figure 1-2 The present invention will be further described in detail below:

[0020] This utility model discloses an embedded glass curtain wall with sunshade function, such as... Figure 1-2As shown, an embedded glass curtain wall with sunshade function includes a curtain wall body 1 installed inside a frame 11; the left and right sides of the glass of the curtain wall body 1 are respectively connected to first rotating brackets 31 by bolts; a sunshade 2 is rotatably connected between the two first rotating brackets 31; a cylinder 41 for driving the rotation of the sunshade 2 is provided on the outer wall of the frame 11, and the cylinder 41 and the sunshade 2 are connected by a rotating part 3 to realize the transmission of force arm; in this embodiment, when it is necessary to adjust the angle of the sunshade 2, the cylinder 41 starts to work, and transmits the force arm to the sunshade 2 through the rotating part 3, so that it rotates under the support of the first rotating brackets 31, thereby changing the angle between the sunshade 2 and the curtain wall body 1 to achieve the purpose of sunshade or lighting; this structure allows the sunshade 2 to flexibly adjust the angle to adapt to sunlight exposure at different times and angles, effectively reducing indoor temperature and ultraviolet radiation, and improving the comfort of the indoor environment;

[0021] like Figure 1-2 As shown, each first rotating bracket 31 has a connecting clip 32 connected inside via a rotating shaft; the connecting clip 32 has a "U"-shaped structure and is connected to the sun visor 2 by bolts; in this embodiment, when the sun visor 2 rotates on the first rotating bracket 31, the connecting clip 32 rotates with the sun visor 2, but always maintains a stable connection with the sun visor 2; this structure ensures the stability and reliability of the sun visor 2 during rotation, and the "U"-shaped structure of the connecting clip 32 can effectively increase the contact area between the sun visor 2 and the first rotating bracket 31, improving the stability of the connection; at the same time, the bolt connection also facilitates the installation and disassembly of the sun visor 2, improving the convenience of maintenance;

[0022] like Figure 1-2 As shown, cylinder 41 is mounted on frame 11 on the upper side of any first rotating bracket 31; a second rotating bracket 4 is bolted to the outer wall of frame 11; cylinder 41 is rotatably connected inside the second rotating bracket 4; and is connected to sun visor 2 through rotating part 3; in this embodiment, when cylinder 41 works, its output end pushes push rod 42 to move, and push rod 42 then transmits force to sun visor 2 through rotating part 3, causing sun visor 2 to rotate under the support of the first rotating bracket 31; since cylinder 41 is connected to frame 11 through second rotating bracket 4, the rotation of cylinder 41 is not restricted by frame 11, and can freely push sun visor 2 to rotate; this installation method allows cylinder 41 to be flexibly arranged in any position of frame 11, improving design flexibility; at the same time, the addition of second rotating bracket 4 also enhances the connection strength between cylinder 41 and frame 11, ensuring the stability and reliability of cylinder 41 when pushing sun visor 2 to rotate;

[0023] like Figure 1-2As shown, the rotating part 3 includes a push rod 42 and a connecting rod 21; one end of the push rod 42 is fixedly connected to the output end of the cylinder 41; one end of the connecting rod 21 is bolted to the edge of the sun visor 2; the other end of the connecting rod 21 is rotatably connected to the other end of the push rod 42; in this embodiment, when the cylinder 41 works, the push rod 42 moves under the push of the output end of the cylinder 41, and then transmits the force to the connecting rod 21 through the rotating part 3, so that the connecting rod 21 drives the sun visor 2 to rotate under the support of the first rotating bracket 31; since the connecting rod 21 and the push rod 42 are rotatably connected, it can be ensured that no excessive friction or resistance is generated in the process of force transmission, thus improving the smoothness of rotation; this structure of the rotating part 3 enables the sun visor 2 to rotate smoothly, and no excessive noise or vibration is generated during the rotation; at the same time, since the connecting rod 21 and the push rod 42 are rotatably connected, the flexibility and reliability of rotation are also improved;

[0024] like Figure 1-2 As shown, the connecting rod 21 has a broken line structure with an included angle of 100-150°.

[0025] like Figure 1-2 As shown, the outer wall of the frame 11 is bolted with a housing 5 covering the outside of the cylinder 41. In this embodiment, the cylinder 41 generates a certain amount of heat and noise during operation. The addition of the housing 5 can effectively isolate this heat and noise, ensuring that the cylinder 41 can work in a stable environment. At the same time, the housing 5 can also prevent dust, moisture and other impurities from entering the cylinder 41 and affecting its normal operation. The protective function of the housing 5 improves the durability and reliability of the cylinder 41 and extends its service life. In addition, the housing 5 can also reduce the noise and heat of the cylinder 41 during operation, improving the environmental performance and comfort of the entire curtain wall.

[0026] like Figure 1-2 As shown, a light sensor is provided on the back side of the sunshade 2. The light sensor is electrically connected to the pneumatic control valve of the cylinder 41 through the controller. In this embodiment, when the light sensor detects that the indoor light intensity is too high, it sends a signal to the controller. After receiving the signal, the controller controls the pneumatic control valve of the cylinder 41 to open, so that the cylinder 41 starts to work and pushes the sunshade 2 to rotate to a suitable position to block the sunlight. Conversely, when the light intensity decreases to a certain level, the controller controls the cylinder 41 to rotate the sunshade 2 in the opposite direction to restore it to its original position or adjust it to a more suitable angle. The addition of the light sensor makes the adjustment of the sunshade 2 more intelligent and automated. It can automatically adjust the angle of the sunshade 2 according to the changes in indoor light intensity, ensuring that the indoor light intensity is always kept within a suitable range, improving the comfort of the indoor environment and the energy-saving effect.

[0027] like Figure 1-2As shown, the sun shade 2 is made of a flexible composite material with variable curvature, and its edges are embedded with rigid reinforcing frames that cooperate with the rotating bracket 31. In this embodiment, when the sun shade 2 rotates on the first rotating bracket 31, its flexible composite material with variable curvature can adapt well to this rotation, ensuring that the sun shade 2 can rotate smoothly to any angle. At the same time, the addition of the rigid reinforcing frame also enhances the strength of the edge of the sun shade 2, avoiding excessive deformation or damage during rotation. This material and structural feature of the sun shade 2 allows it to adapt more flexibly to different sun shading needs. Furthermore, due to the use of flexible composite material, the sun shade 2 can better absorb and disperse stress during rotation, improving its durability and reliability. In addition, the addition of the rigid reinforcing frame also enhances the structural strength of the sun shade 2, making it more stable and durable.

[0028] The foregoing has shown and described the basic principles, main features, and advantages of this utility model. The various components mentioned in this utility model are common technologies in the existing field. Those skilled in the art should understand that this utility model is not limited to the above embodiments. The embodiments and descriptions in the specification are merely illustrative of the principles of this utility model. Various changes and modifications can be made to this utility model without departing from its spirit and scope, and all such changes and modifications fall within the scope of the claims. The scope of protection of this utility model is defined by the appended claims and their equivalents.

Claims

1. An embedded glass curtain wall with sunshade function, comprising a curtain wall body (1) installed inside a frame (11); characterized in that: The glass of the main body of the curtain wall (1) is connected to the first rotating bracket (31) by bolts on the left and right sides respectively; a sunshade (2) is rotatably connected between the two rotating brackets (31); a cylinder (41) for driving the sunshade (2) to rotate is provided on the outer wall of the frame (11), and the cylinder (41) and the sunshade (2) are connected by a rotating part (3) to realize the transmission of force arm.

2. An embedded glass curtain wall with sunshade function as described in claim 1, characterized in that... Each of the first rotating brackets (31) has a connecting clip (32) inside it connected by a rotating shaft; the connecting clip (32) is a "U" shaped structure and is connected to the sunshade (2) by bolts.

3. An embedded glass curtain wall with sunshade function as described in claim 1, characterized in that... The cylinder (41) is mounted on the frame (11) on the upper side of any of the first rotating brackets (31); the outer side wall of the frame (11) is bolted to a second rotating bracket (4); the cylinder (41) is rotatably connected to the inside of the second rotating bracket (4); and is connected to the sunshade (2) through the rotating part (3).

4. An embedded glass curtain wall with sunshade function according to claim 3, characterized in that... The rotating part (3) includes a push rod (42) and a connecting rod (21); the output end of the cylinder (41) is fixedly connected to one end of the push rod (42); the edge of the sunshade (2) is connected to one end of the connecting rod (21) by bolts; the other end of the connecting rod (21) is rotatably connected to the other end of the push rod (42).

5. An embedded glass curtain wall with sunshade function according to claim 4, characterized in that... The connecting rod (21) has a broken line structure with an angle of 100-150°.

6. An embedded glass curtain wall with sunshade function according to claim 1, characterized in that... The outer wall of the frame (11) is bolted with a housing (5) covering the outside of the cylinder (41).

7. An embedded glass curtain wall with sunshade function according to claim 1, characterized in that... The sunshade (2) is equipped with a light sensor on the back side, and the light sensor is electrically connected to the air circuit control valve of the cylinder (41) through a controller.

8. An embedded glass curtain wall with sunshade function according to any one of claims 1-7, characterized in that... The sunshade (2) is made of a flexible composite material with variable curvature, and its edges are inlaid with rigid reinforcing frames that cooperate with the rotating bracket (31).