Smart sunroof

By controlling the raising and lowering of the windows and doors with electric hinges and transmission components, combined with folding hinges and pull-out panels, the problem of complex operation of existing smart skylights has been solved, realizing the automatic blocking and opening functions of the windows and doors, and improving the convenience and stability of use.

CN116591405BActive Publication Date: 2026-07-03HUZHOU AOBAO IND CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Patents(China)
Current Assignee / Owner
HUZHOU AOBAO IND CO LTD
Filing Date
2023-06-16
Publication Date
2026-07-03

AI Technical Summary

Technical Problem

Existing smart sunroofs require multiple steps to open and close, making them inconvenient to use and unable to achieve synchronized control.

Method used

The window and door are controlled by electric hinges. Combined with the design of folding hinges and pull plates, the automatic blocking and opening of the window and door is achieved through transmission and guide components. The sliding and positioning components improve the ease of operation and stability.

Benefits of technology

It enables windows and doors to automatically cover and close when opened, improving ease of operation and stability, and simplifying the user's operation process.

✦ Generated by Eureka AI based on patent content.

Smart Images

  • Figure CN116591405B_ABST
    Figure CN116591405B_ABST
Patent Text Reader

Abstract

This invention relates to the technical field of skylights and discloses an intelligent skylight, including a window frame and a window door. A folding hinge for light blocking is provided on the outer side of the window door away from the window frame. One end of the folding hinge is fixedly connected to the inner wall of the window door, and the other end is fixedly connected to a pull plate. Sliding components and guide components for guiding sliding are provided on both sides of the pull plate. A transmission component for transmission with the guide component is provided between the window frame and the window door. When the window door and window frame are closed, and the window door is raised above the window frame, a connecting rope pulls the cable sleeve, causing the transmission roller to rotate. The rotation of the transmission roller drives the transmission belt, causing the guide plate to move the pull plate inside the window door. When the window door rises and the window frame opens, the pull plate drives the folding hinge to close the window door. This allows the folding hinge to automatically open and close the window door while it is being opened for ventilation, improving the ease of use of this device.
Need to check novelty before this filing date? Find Prior Art

Description

Technical Field

[0001] This invention relates to the technical field of sunroofs, specifically to intelligent sunroofs. Background Technology

[0002] Skylights are windows installed on rooftops for ventilation and light transmission. To improve ventilation in factories, skylights are often installed on rooftops. However, since skylights are located on rooftops, manual operation is inconvenient. Therefore, smart hinges are often used to control the opening and closing of skylights. In addition, to prevent sunlight from shining directly into the factory through the skylights, light-blocking flaps are often installed on the outside of the skylights. In summer, when it is necessary to open the skylight for ventilation, it is also necessary to activate the light-blocking flaps to block the light. Users need to perform multiple steps, which is very inconvenient. Therefore, there is an urgent need for a smart skylight that can open and block light simultaneously. Summary of the Invention

[0003] (a) Technical problems to be solved

[0004] To address the shortcomings of existing technologies, this invention provides an intelligent sunroof.

[0005] (II) Technical Solution

[0006] This invention provides the following technical solution: an intelligent skylight, comprising a window frame and a window door. Two electric hinges for controlling lifting and lowering are installed between the window frame and the window door. A folding hinge for light blocking is installed on the outer side of the window door away from the window frame. One end of the folding hinge is fixedly connected to the inner wall of the window door, and the other end is fixedly connected to a pull plate for opening or closing the folding hinge. Two gripping grooves are provided on the upper surface of the pull plate. The folding hinge is movably connected to the side of the window door away from the window frame via the pull plate. Sliding components and guiding components for guiding sliding are installed on both sides of the outer side of the pull plate. A transmission component for transmitting power to the guiding components is installed between the window frame and the window door.

[0007] Preferably, each of the guide components includes an upper sliding groove and a lower sliding groove, both of which are formed on the inner wall of the window or door, with the upper sliding groove located above the lower sliding groove. The inner wall of the upper sliding groove has a through groove, which communicates with the interior of the lower sliding groove. The interior of the lower sliding groove has an empty slot.

[0008] A guide plate is slidably connected inside the sliding groove. The guide plate is U-shaped and has an open top. Slots are provided on both sides of the inner wall of the guide plate. A toothed plate is fixedly connected to the side of the guide plate near the empty groove opening. The toothed plate is slidably connected inside the empty groove opening.

[0009] Preferably, the inner wall of the sliding groove is provided with a rotating slot. Inside the rotating slot are two positioning components for positioning the two sides of the guide plate. Each positioning component includes a positioning plate, a circular slot, a first torsion spring, and a circular shaft. The circular shaft is fixedly connected inside the positioning plate, and its two ends are respectively fixedly connected to the two sides of the inner wall of the rotating slot. The positioning plate rotates inside the rotating slot through the circular shaft. There are two circular slots and two first torsion springs. The two circular slots are respectively opened on the two sides of the outer side of the positioning plate. The two first torsion springs are respectively fixedly connected inside the two circular slots. The end of the first torsion spring away from the circular slot is fixedly connected to the inner wall of the rotating slot, and the first torsion spring is movably sleeved on the outside of the circular shaft.

[0010] Preferably, each of the sliding components includes a sliding plate, which is fixedly connected to the outside of the pull plate, and the end of the sliding plate away from the pull plate is movably connected to the inside of the upper sliding groove. The length of the sliding plate is adapted to the length of the through groove. A transverse groove is provided inside the sliding plate, which is connected to both sides of the outside. Two locking plates are movably connected inside the transverse groove, and the two locking plates are symmetrically arranged inside the transverse groove.

[0011] Preferably, a fixing plate is fixedly connected to the middle of the transverse groove, and a circular roller is fixedly sleeved inside the fixing plate. Each card plate has an inner groove. The two ends of the circular roller movably pass through the adjacent side of the two card plates and extend into the two inner grooves respectively. Both ends of the circular roller are fixedly connected to a limiting circular plate. The two limiting circular plates are movably connected to the two inner grooves respectively. The card plates slide within the transverse groove by the limiting circular plates.

[0012] Preferably, springs are movably sleeved on both sides of the outer side of the roller, and the two ends of the springs are respectively fixedly connected to the side of the fixing plate and the clamping plate that are close to each other. The clamping plate has an oblique groove at the corner of the end away from the inside of the transverse groove.

[0013] Preferably, the transmission assembly includes a long groove, which is opened inside the window or door. Both sides of the long groove are rotatably connected to transmission rollers. A transmission belt is movably sleeved on the outside of the two transmission rollers. The transmission belt rotates inside the long groove through the two transmission rollers, and the transmission belt is in an engaged connection with the toothed plate.

[0014] Preferably, the transmission assembly further includes a square slot, a round rod is fixedly connected inside the square slot, a wire sleeve is rotatably connected to the outside of the round rod, a transmission roller on one side moves through the inside of the long slot and extends into the inside of the square slot, and the wire sleeve is fixedly connected to the transmission roller. The wire sleeve drives the transmission roller to rotate synchronously. A connecting rope is fixedly connected to the outside of the wire sleeve. The connecting rope is wound around the outside of the wire sleeve, and the end of the connecting rope away from the wire sleeve moves through the inner wall of the square slot and extends downward outside the window. The connecting rope extends downward outside the window and is fixedly connected to the side of the window frame near the window.

[0015] The sleeve has a side groove on the side near the inner wall of the square groove. A second torsion spring is fixedly connected to the inner wall of the side groove. The end of the second torsion spring away from the inner wall of the side groove is fixedly connected to the inner wall of the square groove, and the second torsion spring is movably sleeved on the outside of the round rod.

[0016] Preferably, a retaining ring is fixedly connected to the side of the window door near the window frame, and a sealing ring is fixedly connected to the side of the window frame near the window door, with the sealing ring and the retaining ring corresponding vertically.

[0017] (III) Beneficial Effects

[0018] Compared with the prior art, the present invention provides an intelligent sunroof, which has the following beneficial effects:

[0019] 1. This intelligent skylight lowers the window door via an electric hinge, bringing it close to the window frame. As the window door approaches the frame, a second torsion spring rotates a cable sleeve within a square slot, causing it to retract. The cable sleeve then winds and contracts a connecting rope around its exterior. Simultaneously, the rotation of the cable sleeve drives a transmission roller, which in turn rotates a transmission belt. This belt meshes with a toothed plate, moving a guide plate within a downward groove. Once the window door is closed, the guide plate pulls a sliding plate, causing a folding hinge to open the window door from the outside. As the window door rises above the frame, it pulls the cable sleeve and the connecting rope, which in turn rotates the transmission roller. This rotation drives the transmission belt, causing the guide plate to move the folding hinge inside the window door. Finally, as the window door rises and opens the frame, the folding hinge closes the window door. This automatic folding hinge closure, while simultaneously allowing ventilation, enhances the ease of use of the device.

[0020] 2. This intelligent skylight allows the sliding plates on both sides to slide inside the upper sliding grooves on both sides. At this time, the user can manually pull the pull plate inside the window door. By manually adjusting the pull plate, the folding hinge can be opened or closed inside the window door. When the sliding plates on both sides are sliding inside the upper sliding grooves, the folding hinge is not affected by the rising or falling of the window door, so that the folding hinge can remain open or closed for a long time.

[0021] 3. This intelligent sunroof works by pulling a plate to move the two side slides to the slots, and then pulling the plate downwards. The two slides pass through the slots and move into the guide plates on both sides. The slides engage with the slots, and as they pass through, they pull the two side plates into the slots. At the same time, the angled slots at both ends of the plates contact the slots and guide them. The angled slots then push the plates into the horizontal slots for retraction. After the plates retract into the horizontal slots, the slides move downwards into the guide plates. When the plates reach the slot positions, springs generate elasticity to reset them and they enter the slots. The plates engage with the slots on both sides, thus positioning the slides inside the guide plates, improving the stability of the slides within the guide plates.

[0022] 4. This intelligent sunroof, by setting two positioning components, when the guide plate is placed inside the sliding groove, the two positioning plates are respectively located on the outer sides of the guide plate, and the side of the two positioning plates that are close to each other is respectively attached to the outer sides of the guide plate. At the same time, the positioning plates are positioned inside the sliding groove by the torsion force generated by the first torsion spring. The two positioning plates are respectively attached to the outer sides of the guide plate to position the guide plate inside the sliding groove, thereby ensuring that the guide plate is in the position below the through groove, which facilitates the quick insertion of the slide plate through the through groove and engaging with the guide plate, improving the efficiency of switching from manual to automatic operation of the pull plate and folding hinge.

[0023] 5. This intelligent skylight, when the window door approaches the window frame and the window frame is closed, the window door drives the insert ring to engage inside the sealing ring. The engagement of the insert ring and the sealing ring further seals the window door and window frame, improving the waterproof performance of the window frame and window door after they are sealed. Attached Figure Description

[0024] Figure 1 This is a schematic diagram of the structure of the present invention;

[0025] Figure 2 For the present invention Figure 1 A schematic diagram of the structure when the center-folding hinge is open;

[0026] Figure 3 For the present invention Figure 1 A schematic diagram of the structure of a center-folding hinge;

[0027] Figure 4 For the present invention Figure 1 A partial sectional view of the structure of the central window door;

[0028] Figure 5 For the present invention Figure 4 A magnified schematic diagram of the local structure at point A;

[0029] Figure 6 For the present invention Figure 1 A partial cross-sectional view of the upper and middle sliding grooves;

[0030] Figure 7 For the present invention Figure 3 A partial cross-sectional view of the sliding plate;

[0031] Figure 8 For the present invention Figure 6 Schematic diagram of the middle guide plate;

[0032] Figure 9 For the present invention Figure 3 A partial sectional view of the structure of the medium-length trench;

[0033] Figure 10 For the present invention Figure 6 A schematic diagram of the middle positioning plate.

[0034] In the diagram: 1. Window frame; 11. Window door; 12. Insert ring; 13. Sealing ring; 14. Electric hinge; 15. Pull plate; 16. Folding hinge; 17. Grip groove; 2. Sliding assembly; 21. Slide plate; 22. Horizontal groove; 23. Locking plate; 24. Angled groove; 25. Inner groove; 26. Fixing plate; 27. Spring; 28. Circular roller; 29. ​​Limiting circular plate; 3. Guide assembly; 31. Upper sliding groove; 32. Lower sliding groove; 3 3. Guide plate; 34. Through slot; 35. Slot; 36. Toothed plate; 37. Empty slot; 38. Rotating slot; 4. Positioning assembly; 41. Positioning plate; 42. Circular slot; 43. First torsion spring; 44. Round shaft; 5. Transmission assembly; 51. Long slot; 52. Transmission belt; 53. Transmission roller; 54. Square slot; 55. Wire sleeve; 56. Connecting rope; 57. Side slot; 58. Second torsion spring; 59. Round rod. Detailed Implementation

[0035] The present invention will be further described in detail below with reference to the accompanying drawings, wherein the same parts are indicated by the same reference numerals. It should be noted that the terms “front”, “rear”, “left”, “right”, “upper” and “lower”, “bottom surface” and “top surface” used in the following description refer to the directions in the drawings, and the terms “inner” and “outer” refer to the directions toward or away from the geometric center of a specific part, respectively.

[0036] The technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of the present invention, and not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by those skilled in the art without creative effort are within the scope of protection of the present invention.

[0037] Please see Figures 1-10The present invention provides a technical solution: an intelligent skylight, including a window frame 1 and a window door 11. Two electric hinges 14 for controlling the lifting and lowering are provided between the window frame 1 and the window door 11. A folding hinge 16 for shading is provided on the outside of the window door 11 away from the window frame 1. One end of the folding hinge 16 is fixedly connected to the inner wall of the window door 11, and the other end of the folding hinge 16 is fixedly connected to a pull plate 15 for pulling the folding hinge 16 to open or close. Two gripping grooves 17 are provided on the upper surface of the pull plate 15. The folding hinge 16 is movably connected to the side of the window door 11 away from the window frame 1 through the pull plate 15. A smoke detector for detection, a rain sensor for detecting rainy days, and an intelligent controller for controlling the opening of the window door 11 are provided on the outside of the window frame 1.

[0038] Both sides of the pull plate 15 are provided with sliding components 2 and guide components 3 for guiding the sliding. A transmission component 5 for transmission with the guide component 3 is provided between the window frame 1 and the window door 11. A plug ring 12 is fixedly connected to the side of the window door 11 near the window frame 1, and a sealing ring 13 is fixedly connected to the side of the window frame 1 near the window door 11. The sealing ring 13 and the plug ring 12 are vertically corresponding.

[0039] Each guide assembly 3 includes an upper sliding groove 31 and a lower sliding groove 32. Both the upper sliding groove 31 and the lower sliding groove 32 are opened on the inner wall of the window 11, and the upper sliding groove 31 is located above the lower sliding groove 32. The inner wall of the upper sliding groove 31 is provided with a through groove 34, and the interior of the through groove 34 is connected to the interior of the lower sliding groove 32. The interior of the lower sliding groove 32 is provided with an empty slot 37. A guide plate 33 is slidably connected to the interior of the lower sliding groove 32. The guide plate 33 is U-shaped and the upper end of the guide plate 33 is open. Both sides of the inner wall of the guide plate 33 are provided with slots 35. A toothed plate 36 is fixedly connected to the side of the guide plate 33 near the empty slot 37. The toothed plate 36 is slidably connected to the interior of the empty slot 37.

[0040] The inner wall of the sliding groove 32 is provided with a rotating groove 38. Inside the rotating groove 38 are two positioning components 4 for positioning the two sides of the guide plate 33. Each positioning component 4 includes a positioning plate 41, a circular groove 42, a first torsion spring 43 and a circular shaft 44. The circular shaft 44 is fixedly connected inside the positioning plate 41. The two ends of the circular shaft 44 are respectively fixedly connected to the two sides of the inner wall of the rotating groove 38. The positioning plate 41 is driven to rotate inside the rotating groove 38 by the circular shaft 44. There are two circular grooves 42 and two first torsion springs 43. The two circular grooves 42 are respectively opened on the two sides of the outer side of the positioning plate 41. The two first torsion springs 43 are respectively fixedly connected inside the two circular grooves 42. The end of the first torsion spring 43 away from the circular groove 42 is fixedly connected to the inner wall of the rotating groove 38, and the first torsion spring 43 is movably sleeved on the outside of the circular shaft 44.

[0041] Each sliding component 2 includes a sliding plate 21, which is fixedly connected to the outside of the pull plate 15. The end of the sliding plate 21 furthest from the pull plate 15 is movably connected to the inside of the upper sliding groove 31. The length of the sliding plate 21 matches the length of the through groove 34. A transverse groove 22 is formed inside the sliding plate 21, communicating with both sides of the outside. Two retaining plates 23 are movably connected inside the transverse groove 22, symmetrically arranged within it. A fixing plate 26 is fixedly connected to the center of the transverse groove 22, and a circular roller 28 is fixedly sleeved inside the fixing plate 26. Each retaining plate 23 has a... The inner groove 25 and the two ends of the roller 28 are movable through the two clamping plates 23 on the side close to each other and extend into the interior of the two inner grooves 25 respectively. Both ends of the roller 28 are fixedly connected to the limiting circular plates 29. The two limiting circular plates 29 are movably connected to the interior of the two inner grooves 25 respectively. The clamping plate 23 is limited to slide inside the transverse groove 22 by the limiting circular plates 29. Springs 27 are movably sleeved on both sides of the outside of the roller 28. The two ends of the springs 27 are fixedly connected to the side of the fixing plate 26 close to the clamping plate 23 respectively. The corner of the clamping plate 23 away from the interior of the transverse groove 22 is provided with a slanted groove 24.

[0042] The transmission assembly 5 includes a long groove 51, which is located inside the window 11. Two transmission rollers 53 are rotatably connected to both sides of the long groove 51. A transmission belt 52 is movably sleeved around the two transmission rollers 53. The transmission belt 52 rotates inside the long groove 51 via the two transmission rollers 53, and is engaged with the toothed plate 36. The transmission assembly 5 also includes a square slot 54, inside which a round rod 59 is fixedly connected. A wire sleeve 55 is rotatably connected to the outside of the round rod 59. One transmission roller 53 extends through the long groove 51 and into the square slot 54, and the wire sleeve 55 is fixedly connected to the transmission roller 53. The wire sleeve 55 drives the transmission roller 53. The moving roller 53 rotates synchronously. A connecting rope 56 is fixedly connected to the outside of the sleeve 55. The connecting rope 56 is wound around the outside of the sleeve 55, and the end of the connecting rope 56 away from the sleeve 55 moves through the inner wall of the square groove 54 and extends downward to the outside of the window 11. The connecting rope 56 extends downward to the outside of the window 11 and is fixedly connected to the side of the window frame 1 near the window 11. A side groove 57 is opened on the side of the sleeve 55 near the inner wall of the square groove 54. A second torsion spring 58 is fixedly connected to the inner wall of the side groove 57. The end of the second torsion spring 58 away from the inner wall of the side groove 57 is fixedly connected to the inner wall of the square groove 54, and the second torsion spring 58 is movably sleeved on the outside of the round rod 59.

[0043] In use, the first step is to slide the two sliding plates 21 inside the upper sliding grooves 31 on both sides. At this time, the user can manually pull the pull plate 15 inside the window 11. By manually adjusting the pull plate 15, the folding hinge 16 can be opened or closed inside the window 11. When the two sliding plates 21 are sliding inside the upper sliding grooves 31, the folding hinge 16 is not affected by the rise or fall of the window 11, so that the folding hinge 16 can be kept open or closed for a long time.

[0044] The second step involves moving the two side slides 21 to the position of the through slot 34 by pulling the plate 15, and then moving the plate 15 downwards. The two side slides 21 pass through the through slots 34 and move into the guide plates 33 on both sides. The slides 21 engage with the inside of the through slots 34. As the slides 21 pass through the through slots 34, they drive the two side locking plates 23 into the through slots 34. Simultaneously, the inclined slots 24 at both ends of the locking plates 23 contact the through slots 34 and guide the locking plates 23. 4. The contact guides the card plate 23 to retract into the transverse groove 22. After the card plates 23 on both sides retract into the transverse groove 22, the slide plate 21 moves downward into the guide plate 33. When the card plates 23 on both sides move to the slot 35, the spring 27 generates elastic force to reset and enter the slot 35. The card plates 23 on both sides engage with the slots 35 on both sides. The card plates 23 on both sides position the slide plate 21 inside the guide plate 33, which improves the stability of the slide plate 21 placed in the guide plate 33.

[0045] The third step involves setting two positioning components 4. When the guide plate 33 is placed inside the sliding groove 32, the two positioning plates 41 are located on the outer sides of the guide plate 33, and the side of the two positioning plates 41 that is close to each other is attached to the outer sides of the guide plate 33. At the same time, the positioning plates 41 are positioned inside the sliding groove 32 by the torque generated by the first torsion spring 43. The two positioning plates 41 are attached to the outer sides of the guide plate 33 to position the guide plate 33 inside the sliding groove 32, thereby ensuring that the guide plate 33 is in the position below the through groove 34. This facilitates the quick insertion of the slide plate 21 through the through groove 34 and engaging it with the guide plate 33, improving the efficiency of switching the pull plate 15 and the folding hinge 16 from manual to automatic operation.

[0046] Fourthly, by activating the electric hinge 14, the window door 11 is lowered and closes to the window frame 1. As the window door 11 approaches the window frame 1, the second torsion spring 58 causes the cable sleeve 55 to rotate and reset inside the square slot 54. The cable sleeve 55 causes the connecting rope 56 to wind and retract around the outside of the cable sleeve 55. Simultaneously, the rotation of the cable sleeve 55 drives the transmission roller 53, causing the transmission belt 52 to rotate. The transmission belt 52 meshes with the toothed plate 36 and drives the guide plate 33 to move inside the sliding groove 32. When the window door 11 closes to the window frame 1, the guide plate 33 pulls the sliding plate 21, causing the pull plate 15 to drive the folding hinge 16 within the window door 11. When the window 11 is opened from the outside and raised above the window frame 1, the window 11 drives the cable sleeve 55 and pulls the connecting rope 56. The pulling of the connecting rope 56 drives the cable sleeve 55 to rotate the transmission roller 53. The rotation of the transmission roller 53 drives the transmission belt 52 and causes the guide plate 33 to move the pull plate 15 inside the window 11. When the window 11 rises and opens the window frame 1, the pull plate 15 drives the folding hinge 16 to close the window 11. This allows the folding hinge 16 to automatically open and close the window 11 while the window 11 is open for ventilation, improving the ease of use of this device.

[0047] Although embodiments of the invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the appended claims and their equivalents.

Claims

1. Intelligent sunroof, comprising a window frame (1) and a window door (11), between which two electric hinges (14) for controlling the lifting are provided, characterized in that: A folding hinge (16) for light blocking is provided on the side of the window door (11) away from the window frame (1). One end of the folding hinge (16) is fixedly connected to the inner wall of the window door (11), and the other end of the folding hinge (16) is fixedly connected to a pull plate (15) for pulling the folding hinge (16) to open or close. Two gripping grooves (17) are provided on the upper surface of the pull plate (15). The folding hinge (16) is movably connected to the side of the window door (11) away from the window frame (1) by the pull plate (15). Sliding components (2) and guide components (3) for guiding sliding are provided on both sides of the pull plate (15). A transmission component (5) for transmission with the guide component (3) is provided between the window frame (1) and the window door (11). Each of the guide components (3) includes an upper sliding groove (31) and a lower sliding groove (32). The upper sliding groove (31) and the lower sliding groove (32) are both opened on the inner wall of the window (11), and the upper sliding groove (31) is located above the lower sliding groove (32). The inner wall of the upper sliding groove (31) is provided with a through groove (34), and the interior of the through groove (34) is connected to the interior of the lower sliding groove (32). The interior of the lower sliding groove (32) is provided with an empty slot (37). The guide plate (33) is slidably connected inside the sliding groove (32). The guide plate (33) is U-shaped and has an open top. The guide plate (33) has slots (35) on both sides of its inner wall. A toothed plate (36) is fixedly connected to the side of the guide plate (33) near the empty slot (37). The toothed plate (36) is slidably connected inside the empty slot (37). Each of the sliding components (2) includes a sliding plate (21), which is fixedly connected to the outside of the pull plate (15), and the end of the sliding plate (21) away from the pull plate (15) is movably connected to the inside of the upper sliding groove (31). The length of the sliding plate (21) is adapted to the length of the through groove (34). A transverse groove (22) is provided inside the sliding plate (21), which is connected to both sides of the outside. Two locking plates (23) are movably connected inside the transverse groove (22), and the two locking plates (23) are symmetrically arranged inside the transverse groove (22). The transmission assembly (5) includes a long groove (51), which is opened inside the window (11). Both sides of the long groove (51) are rotatably connected to transmission rollers (53). A transmission belt (52) is movably sleeved on the outside of the two transmission rollers (53). The transmission belt (52) rotates inside the long groove (51) through the two transmission rollers (53), and the transmission belt (52) is engaged with the toothed plate (36). The transmission assembly (5) also includes a square slot (54), a round rod (59) is fixedly connected inside the square slot (54), a wire sleeve (55) is rotatably connected to the outside of the round rod (59), a transmission roller (53) on one side moves through the inside of the long groove (51) and extends to the inside of the square slot (54), and the wire sleeve (55) is fixedly connected to the transmission roller (53). The wire sleeve (55) drives the transmission roller (53) to rotate synchronously. A connecting rope (56) is fixedly connected to the outside of the wire sleeve (55). The connecting rope (56) is arranged in a wound state outside the wire sleeve (55), and the end of the connecting rope (56) away from the wire sleeve (55) moves through the inner wall of the square slot (54) and extends downward to the outside of the window (11). The connecting rope (56) extends downward to the outside of the window (11) and is fixedly connected to the side of the window frame (1) near the window (11). The sleeve (55) has a side groove (57) on the side near the inner wall of the square groove (54). A second torsion spring (58) is fixedly connected to the inner wall of the side groove (57). The end of the second torsion spring (58) away from the inner wall of the side groove (57) is fixedly connected to the inner wall of the square groove (54), and the second torsion spring (58) is movably sleeved on the outside of the round rod (59). When the window door (11) is raised or lowered relative to the window frame (1), the connecting rope (56) drives the wire sleeve (55) to rotate, the wire sleeve (55) drives the transmission roller (53) and the transmission belt (52) to rotate, the transmission belt (52) drives the guide plate (33) to slide in the sliding groove (32) through the toothed plate (36), the guide plate (33) drives the slide plate (21) to move through the card plate (23) inserted into the card slot (35), the slide plate (21) drives the pull plate (15) to move, so that the folding hinge (16) automatically opens or closes with the raising or lowering of the window door (11).

2. The intelligent skylight according to claim 1, characterized in that: The inner wall of the sliding groove (32) is provided with a rotating slot (38). Inside the rotating slot (38) are two positioning components (4) for positioning the two sides of the guide plate (33). Each positioning component (4) includes a positioning plate (41), a circular slot (42), a first torsion spring (43), and a circular shaft (44). The circular shaft (44) is fixedly connected inside the positioning plate (41), and the two ends of the circular shaft (44) are respectively fixedly connected to the two sides of the inner wall of the rotating slot (38). 1) The rotating part inside the rotating slot (38) is driven by the round shaft (44). There are two round slots (42) and two first torsion springs (43). The two round slots (42) are respectively opened on both sides of the outside of the positioning plate (41). The two first torsion springs (43) are respectively fixedly connected inside the two round slots (42). The end of the first torsion spring (43) away from the round slot (42) is fixedly connected to the inner wall of the rotating slot (38), and the first torsion spring (43) is movably sleeved on the outside of the round shaft (44).

3. The intelligent skylight according to claim 1, characterized in that: A fixing plate (26) is fixedly connected to the middle of the transverse groove (22). A circular roller (28) is fixedly sleeved inside the fixing plate (26). Each clamping plate (23) has an inner groove (25) inside. The two ends of the circular roller (28) move through the two clamping plates (23) on the side that is close to each other and extend into the two inner grooves (25) respectively. Both ends of the circular roller (28) are fixedly connected to a limiting circular plate (29). The two limiting circular plates (29) are movably connected to the two inner grooves (25) respectively. The clamping plate (23) slides within the transverse groove (22) through the limiting circular plates (29).

4. The intelligent skylight according to claim 3, characterized in that: Springs (27) are movably sleeved on both sides of the outer side of the roller (28). The two ends of the springs (27) are fixedly connected to the side of the fixed plate (26) and the clamping plate (23) respectively. The clamping plate (23) has a slanted groove (24) at the corner of the end away from the inside of the transverse groove (22).

5. The intelligent skylight according to claim 1, characterized in that: A locking ring (12) is fixedly connected to the side of the window door (11) near the window frame (1), and a sealing ring (13) is fixedly connected to the side of the window frame (1) near the window door (11). The sealing ring (13) and the locking ring (12) are vertically aligned.