A roof intelligent sun-shading and heat-insulating device
The design of the intelligent shading device solves the problem that the existing rooftop shading structure cannot cope with sunlight from multiple angles, and achieves multi-functional shading, drying and ventilation effects, improving living comfort and energy efficiency.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Patents(China)
- Current Assignee / Owner
- THE THIRD CONSTR OF CHINA CONSTR EIGHTH ENG BUREAU
- Filing Date
- 2024-02-29
- Publication Date
- 2026-07-14
AI Technical Summary
Existing rooftop shading structures cannot effectively cope with sunlight from multiple angles, resulting in increased temperatures and inconvenience in use, and they cannot meet both shading and drying needs.
An intelligent sunshade device was designed, comprising a support frame, motorized louvers, sliding blocks, clamping components, shading fabric, and a sensing module. Multi-angle sunshade control is achieved through a motorized track and a main control module. Combined with an adjustable cantilever structure and folded fabric, it meets the needs of different usage scenarios.
It achieves multi-angle shading effect, regulates the amount of sunlight entering, provides drying function, and improves roof ventilation and rain protection, thereby enhancing living comfort and energy efficiency.
Smart Images

Figure CN117926976B_ABST
Abstract
Description
Technical Field
[0001] This invention relates to the field of rooftop shading, and in particular to an intelligent rooftop shading and heat insulation device. Background Technology
[0002] With social development, there are increasingly higher requirements for low-carbon production and low-carbon construction. People have come up with some new directions for building insulation and energy conservation, such as installing some intelligently adjustable energy-saving insulation devices on the roof, which can improve the comfort of living and working while also improving energy-saving insulation efficiency and reducing energy consumption.
[0003] In both past and present-day construction, rooftops are typically horizontal, and structures such as sunrooms require shading, especially in summer when prolonged exposure to the sun can cause high temperatures on the top floor. Therefore, people install canopies or retractable shading structures on the top floor to cope with direct sunlight.
[0004] However, such structures nowadays usually serve a single purpose. For example, the air inside the welded roof is not easy to circulate, and the roof will not be in direct sunlight, so it is impossible to dry quilts, which affects the use of other residents on the floor. At the same time, the retractable shade structure cannot cope with the sun from multiple angles, or the sun shining in from an oblique angle, so users who want to cool off need to keep changing their positions. Summary of the Invention
[0005] The technical problem to be solved by the present invention is to overcome the defects of the prior art and provide a rooftop intelligent sunshade and heat insulation device.
[0006] To solve the above-mentioned technical problems, the present invention provides the following technical solution:
[0007] This invention discloses a rooftop intelligent sunshade and heat insulation device, comprising a support frame, a long column at the rear end of the support frame, a short column at the front end, a rectangular frame at the top of the long and short columns, an inclined surface on the top surface of the rectangular frame facing the short column, an electric louver on the inner side of the rectangular frame, electric tracks installed at the top of the inner walls on both sides of the rectangular frame, sliding blocks installed on the surface of the electric tracks, clamping members at the top of the sliding blocks, a shading cloth on the inner side of the clamping members, a sealing tube at the top of the long column, the sealing tube containing a winding shaft and a main control module, wherein the winding shaft is located on the top side of the sealing tube, and the shading cloth extends to the surface of the winding shaft and is wound around it, the winding shaft includes a rewinding structure, and a sensing module is also provided at the top of the sealing tube.
[0008] As a preferred embodiment of the present invention, the rewinding structure is a torsion spring or a rotating motor. The main control module is connected to the sensing module, the electric track, and the electric louvers. The sensing module includes a rain sensor and a light sensor. The electric track is inclined toward the side of the short column, and the lowest point of the electric track and the lowest point of the rectangular frame are at the same height.
[0009] As a preferred embodiment of the present invention, a vertical slide is provided near the outer surface of the short column, and a horizontal plate is fixedly installed at the bottom end of the vertical slide. The horizontal plate is cantilevered, and a fixing groove is provided on the side away from the short column. A cross lifting rod is provided on the inner side of the fixing groove, and a top plate is provided at the top of the cross lifting rod. A push rod is provided on the side near the short column, and the push rod is used to drive the cross lifting rod. Horizontal bars are installed on the inner sides of the top plates on both sides, and the horizontal bars are arranged at equal intervals.
[0010] As a preferred embodiment of the present invention, a fixing plate is provided on the side of the top plate away from the short column, a folded cloth is provided on the inner side of the fixing plate, a hook is provided on the side of the folded cloth near the short column, a first hook point is installed on the top plate at the inner side of the fixing plate, and a second hook point is installed on the top plate at the side of the top plate near the short column.
[0011] As a preferred embodiment of the present invention, the long column and the short column have a height difference at their bottom ends. The short column can be mounted on other fasteners or extended to the same plane as the bottom end of the long column through other columnar structures.
[0012] As a preferred embodiment of the present invention, the surface of the shielding cloth is provided with vertical stripes, and the shielding cloth is made of awning cloth with rubber interlayer or rainproof cloth with PU rainproof layer, and there is a height difference between the top of the vertical slide and the bottom of the top of the rectangular frame.
[0013] As a preferred embodiment of the present invention, the top plate and the vertical slide are slidably connected, the top plate and the fixed groove are connected by a cross lifting rod, the push rod is a hydraulic telescopic rod structure, and a slide is provided on the side of the cross lifting rod near the hydraulic telescopic rod.
[0014] Compared with the prior art, the beneficial effects of the present invention are as follows:
[0015] This invention designs a sunshade canopy structure with multiple versatility functions, which can cope with various usage scenarios, and can directly unfold the top and control the amount of sunlight. In particular, the cantilevered structure can block sunlight from the side of the building, and when the cantilever shading effect is not used, it can be further transformed into a structure for drying clothes. Attached Figure Description
[0016] The accompanying drawings are provided to further illustrate the invention and form part of the specification. They are used in conjunction with embodiments of the invention to explain the invention and do not constitute a limitation thereof. In the drawings:
[0017] Figure 1 This is a schematic diagram of the overall structure of the present invention;
[0018] Figure 2 This is a partial structural schematic diagram of the present invention;
[0019] Figure 3 This is a partial structural schematic diagram of the present invention;
[0020] Figure 4 This is a partial structural schematic diagram of the present invention;
[0021] In the diagram: 1. Support frame; 101. Long column; 102. Short column; 2. Rectangular frame; 201. Inclined surface; 202. Motorized louver; 3. Motorized track; 301. Sliding block; 302. Clamping component; 303. Covering cloth; 4. Sealing tube; 401. Rolling shaft; 402. Main control module; 403. Sensing module; 5. Vertical slide; 501. Horizontal plate; 502. Fixing groove; 503. Cross lifting rod; 504. Top plate; 505. Horizontal bar; 6. Fixing plate; 601. Folded cloth; 602. Hook; 603. First hook point; 604. Second hook point. Detailed Implementation
[0022] The preferred embodiments of the present invention will be described below with reference to the accompanying drawings. It should be understood that the preferred embodiments described herein are for illustration and explanation only and are not intended to limit the present invention.
[0023] Example 1
[0024] like Figure 1-4 As shown, the present invention provides a rooftop intelligent sunshade and heat insulation device, including a support frame 1. A long column 101 is provided at the rear end of the support frame 1, and a short column 102 is provided at the front end. A rectangular frame 2 is provided at the top of the long column 101 and the short column 102. An inclined surface 201 is provided on the top surface of the rectangular frame 2 facing the short column 102. An electric louver 202 is provided on the inner side of the rectangular frame 2. Electric tracks 3 are installed on the top of the inner walls on both sides of the rectangular frame 2. A sliding surface is installed on the surface of the electric track 3. Block 301, the top of the sliding block 301 is provided with a clamping member 302, the inner side of the clamping member 302 is provided with a shielding cloth 303, the top of the long column 101 is provided with a sealing tube 4, the sealing tube 4 contains a winding shaft 401 and a main control module 402, wherein the winding shaft 401 is provided on the top side of the sealing tube 4, and the shielding cloth 303 extends to the surface of the winding shaft 401 and is wound around it. The winding shaft 401 includes a rewinding structure, and the top of the sealing tube 4 is also provided with a sensing module 403.
[0025] The rewinding structure is a torsion spring or a rotating motor. The main control module 402 is connected to the sensing module 403, the electric track 3 and the electric louver 202 respectively. The sensing module 403 includes a rain sensor and a light sensor. The electric track 3 is inclined towards the side of the short column 102, and the lowest point of the electric track 3 and the lowest point of the rectangular frame 2 are at the same height.
[0026] A vertical slide rail 5 is provided near the outer surface of the short column 102. A horizontal plate 501 is fixedly installed at the bottom end of the vertical slide rail 5. The horizontal plate 501 is cantilevered. A fixing groove 502 is provided on the side away from the short column 102. A cross lifting rod 503 is provided on the inner side of the fixing groove 502. A top plate 504 is provided at the top of the cross lifting rod 503. A push rod is provided on the side near the short column 102. The push rod is used to drive the cross lifting rod 503. Horizontal bars 505 are installed on the inner side of the top plates 504 on both sides. The horizontal bars 505 are arranged at equal intervals.
[0027] A fixing plate 6 is provided on the side of the top plate 504 away from the short column 102. A folded cloth 601 is provided on the inner side of the fixing plate 6. A hook 602 is provided on the side of the folded cloth 601 near the short column 102. A first hook point 603 is installed on the top of the top plate 504 on the inner side of the fixing plate 6. A second hook point 604 is installed on the top of the top plate 504 near the short column 102.
[0028] The long column 101 and the short column 102 have a height difference at their bottom ends. The short column 102 can be installed on other fasteners or extended to the same plane as the bottom end of the long column 101 through other columnar structures.
[0029] The surface of the cover cloth 303 is provided with vertical stripes. The cover cloth 303 is made of awning cloth with rubber interlayer or rainproof cloth with PU rainproof layer. There is a height difference between the top of the vertical slide 5 and the bottom of the top of the rectangular frame 2.
[0030] The top plate 504 and the vertical slide rail 5 are slidably connected. The top plate 504 and the fixed groove 502 are connected by a cross lifting rod 503. The push rod is a hydraulic telescopic rod structure. A slide rail is provided on the side of the cross lifting rod 503 near the hydraulic telescopic rod.
[0031] Specifically, the overall structure is constructed through a supporting frame 1. The long column 101 can be directly installed on the roof, and the short column 102 can be installed on the parapet wall; or the fixed column can be extended to overlap the short column 102 at the sunroom to the ground, forming an upper and lower structure. The specific installation structure can be changed according to the actual construction scenario. Since the rectangular frame 2 itself has an inclined angle, it is also possible to set an inclined installation effect between the short column 102 and the long column 101 when necessary, and to set a symmetrical overall structure on the left and right sides, so that the cantilevered part extends outside the wall. The above multiple methods are available for users to choose from.
[0032] In subsequent usage, the main control module 402 can be connected to an external power cord, and users can connect and control it based on the control terminal or the wireless connection module under the main control module 402.
[0033] When the sensing module 403 senses the data set by the user, that is, when the different light sensors located on the top and bottom sides of the motorized blinds 202 sense the amount of sunlight entering, the outer sensor will drive the sliding block 301 to move on the motorized track 3 after sensing that it exceeds the set value range. The sliding block 301 will continuously pull the shading cloth 303 on the surface of the roller shaft 401 to a lower part of the inclined surface 201, and the long strip-shaped clamping member 302 will squeeze the shading cloth 303 to complete the sealing effect, thereby completely blocking the sunlight. When the rainy season occurs, the raindrop sensor will also trigger the above process.
[0034] If it is necessary to adjust the amount of sunlight entering, the amount of sunlight entering from the motorized blinds 202 can be sensed by the inner light sensor, and the program or the user can adjust it according to the actual situation.
[0035] The side sunshade is mainly provided by the user through manual operation. The folded cloth 601 at the fixing plate 6 is removed from the first hook point 603 via the hook 602 and pulled to the second hook point 604 to form a side shading structure. The crossbar 505 on the inner side will provide support. Then, it can be raised to the top via the cross lifting bar 503 inside the fixing groove 502. Rainwater in the rainy season will also flow down from the roof along this point, which also has a further rain-proofing effect.
[0036] If the user does not need the aforementioned sunshade effect, the folded fabric 601 can be folded up to form a shape like... Figure 4 The structure is designed so that the folded cloth 601 is fixed with Velcro. Finally, the cross lifting bar 503 is lowered. Since the cross bar 505 has different heights at the front and back, it can be used to place clothes or cotton cups on the cross bar 505 to provide a sun-drying effect.
[0037] Its overall structure is simple and versatile. It can adjust the amount of sunlight and the degree of opening according to the actual sun exposure needs. When unfolded, it can also increase the ventilation on the inside. When needed, a glass plate can be installed between the electric louver 202 and the cover cloth 303 to form a complete seal on the top.
[0038] Finally, it should be noted that the above descriptions are merely preferred embodiments of the present invention and are not intended to limit the present invention. Although the present invention has been described in detail with reference to the foregoing embodiments, those skilled in the art can still modify the technical solutions described in the foregoing embodiments or make equivalent substitutions for some of the technical features. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of the present invention should be included within the protection scope of the present invention.
Claims
1. A rooftop intelligent shading and heat insulation device, comprising a supporting frame (1), characterized in that, The supporting frame (1) has a long column (101) at its rear end and a short column (102) at its front end. A rectangular frame (2) is provided at the top of the long column (101) and the short column (102). An inclined surface (201) is provided on the top surface of the rectangular frame (2) facing the short column (102). An electric louver (202) is provided on the inner side of the rectangular frame (2). An electric track (3) is installed at the top of the inner walls on both sides of the rectangular frame (2). A sliding block (301) is installed on the surface of the electric track (3). The top of the sliding block (301) is... The end is provided with a clamping member (302), and the inner side of the clamping member (302) is provided with a shielding cloth (303). The top of the long column (101) is provided with a sealing tube (4). The sealing tube (4) contains a winding shaft (401) and a main control module (402). The winding shaft (401) is located on the top side of the sealing tube (4), and the shielding cloth (303) extends to the surface of the winding shaft (401) and is wound around it. The winding shaft (401) includes a rewinding structure. The top of the sealing tube (4) is also provided with a sensing module (403). The rewinding structure is a torsion spring or a rotating motor. The main control module (402) is connected to the sensing module (403), the electric track (3) and the electric louver (202) respectively. The sensing module (403) includes a rain sensor and a light sensor. The electric track (3) is inclined towards the side of the short column (102), and the lowest point of the electric track (3) and the lowest point of the rectangular frame (2) are at the same height. A vertical slide rail (5) is provided near the outer surface of the short column (102). A horizontal plate (501) is fixedly installed at the bottom end of the vertical slide rail (5). The horizontal plate (501) is cantilevered. A fixing groove (502) is provided on the side away from the short column (102). A cross lifting rod (503) is provided on the inner side of the fixing groove (502). A top plate (504) is provided at the top of the cross lifting rod (503). A push rod is provided on the side near the short column (102). The push rod is used to drive the cross lifting rod (503). A horizontal bar (505) is installed on the inner side of the top plate (504) on both sides. The horizontal bars (505) are arranged at equal intervals.
2. The intelligent rooftop shading and heat insulation device according to claim 1, characterized in that, A fixing plate (6) is provided on the side of the top plate (504) away from the short column (102). A folded cloth (601) is provided on the inner side of the fixing plate (6). A hook (602) is provided on the side of the folded cloth (601) near the short column (102). A first hook point (603) is installed on the top of the top plate (504) on the inner side of the fixing plate (6). A second hook point (604) is installed on the top of the top plate (504) near the short column (102).
3. The intelligent rooftop shading and heat insulation device according to claim 2, characterized in that, The long column (101) and the short column (102) have a height difference at their bottom ends, and the short column (102) is mounted on a fixing member.
4. The intelligent rooftop shading and heat insulation device according to claim 2, characterized in that, The long column (101) and the short column (102) have a height difference at their bottom ends, and the short column (102) is extended to the same plane as the bottom end of the long column (101) through a columnar structure.
5. The intelligent rooftop shading and heat insulation device according to claim 3, characterized in that, The surface of the shielding cloth (303) is provided with vertical stripes. The shielding cloth (303) is made of tarpaulin with rubber interlayer or rainproof fabric with PU rainproof layer. There is a height difference between the top of the vertical slide (5) and the lowest point of the top of the rectangular frame (2).
6. The intelligent rooftop shading and heat insulation device according to claim 3, characterized in that, The top plate (504) and the vertical slide rail (5) are slidably connected. The top plate (504) and the fixed groove (502) are connected by a cross lifting rod (503). The push rod is a hydraulic telescopic rod structure. A slide rail is provided on the side of the cross lifting rod (503) near the hydraulic telescopic rod.