Sunroof assembly and vehicle
By installing guide components that protrude outwards on the sunshade, the problem of sunshade collapse is solved, achieving stable deployment and aesthetics, and improving the utilization of interior space and user experience.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- AVATR CO LTD
- Filing Date
- 2025-08-01
- Publication Date
- 2026-07-03
AI Technical Summary
Existing sunshades, when unfolded and in use, are prone to sagging or collapsing in the vertical direction due to insufficient gravity or structural support, affecting both functionality and aesthetics.
A guide component protruding outwards is installed on the sunshade. Through the guiding and sliding cooperation between the support component and the guide component, a third-party support is provided to prevent the sunshade from collapsing.
It improves the aesthetics and stability of the sunshade when it is unfolded, increases the utilization of interior space, reduces interference between the sunshade and other equipment, and enhances the user experience.
Smart Images

Figure CN224447430U_ABST
Abstract
Description
Technical Field
[0001] This application relates to the field of vehicle component technology, and more particularly to a sunroof assembly and a vehicle. Background Technology
[0002] In the current new energy vehicle market, consumers have increasingly diversified demands for vehicles, requiring not only a wide range of functions but also higher standards for aesthetics. As an important component of new energy vehicles, sunroofs need to effectively block sunlight and provide heat insulation, while also significantly impacting the overall aesthetics of the vehicle's interior.
[0003] When the existing sunshade is in use, it is prone to sagging or collapsing in the vertical direction due to insufficient gravity or structural support. This not only affects the functionality of the sunshade, but may also negatively impact the visual effect and riding experience inside the vehicle. Utility Model Content
[0004] In view of this, the present application provides a sunroof assembly and vehicle. By setting a guide member that protrudes outward, when the sunshade is in the unfolded state, the guide member provides support for the sunshade in a third direction, preventing the sunshade from collapsing inward and improving the aesthetics of the vehicle interior.
[0005] To achieve the above objectives, the technical solution of this application embodiment is implemented as follows:
[0006] In a first aspect, embodiments of this application provide a sunroof assembly, a sunroof provided on the roof of a vehicle, comprising: a bracket disposed on the sunroof; a sunroof glass slidably mounted on the bracket; and a sunshade device comprising: a sunshade curtain retractably disposed on the bracket for blocking the sunroof glass; a support member extending along a first direction and slidably disposed on the bracket along a second direction, the support member being connected to the sunshade curtain; and a guide member disposed on the bracket, the guide member extending along the second direction, at least a portion of the structure of the guide member protruding in a third direction toward the outside of the vehicle, the support member and the guide member being in a guiding sliding engagement.
[0007] This utility model discloses a sunroof assembly that achieves the unfolding and folding of the sunshade through a guiding sliding engagement between a support member and a guide member along a second direction. During the unfolding process, the support member slides smoothly along the second direction under the guidance of the guide member. After the sunshade is unfolded, the guide member provides support for the sunshade along a third direction, preventing the sunshade from collapsing towards the interior of the vehicle and improving the aesthetics of the interior.
[0008] In some embodiments, the bracket includes two guide rails spaced apart along a first direction and two crossbeams spaced apart along a second direction, the two guide rails and the two crossbeams being connected to form the bracket, and the guide member being disposed between the two guide rails.
[0009] The bracket forms a stable frame structure, which is beneficial for supporting the sunroof glass. The guide is set between the two guide rails, which helps to make full use of the interior space. At the same time, when the sunshade is unfolded, the guide provides third-party support to the sunshade through the guide, preventing the sunshade from collapsing.
[0010] According to some embodiments of the present invention, the two ends of the guide member along the second direction are respectively connected to the middle portions of the two crossbeams along the first direction.
[0011] By placing the guide component in the middle of the crossbeam, the guide component provides good support for the sunshade curtain, allowing the weight of the sunshade curtain to be evenly distributed, which helps to improve the aesthetics of the sunshade curtain when it is unfolded.
[0012] According to some embodiments of the present invention, the support member is slidably connected to two guide rails at both ends along the first direction.
[0013] This helps improve the stability and reliability of the shading device during operation and prevents the shading curtain from getting stuck or unstable during movement.
[0014] According to some embodiments of the present invention, at least a portion of the structure of the support member protrudes outward along a third direction, and the protruding portion of the support member slides and guides the guide member.
[0015] By making the support components also protrude outwards from the vehicle, the fit between the support components and the guide components is made more stable, which helps to further improve the stability of the sunshade during the opening and closing process. At the same time, the outward protrusion of the support components causes part of the structure of the sunshade connected to them to also protrude outwards from the vehicle, which helps to keep the sunshade taut when it is open, prevents the sunshade from collapsing, and improves the aesthetics of the sunshade when it is open.
[0016] In some embodiments, the sunshade device further includes a retractable mechanism, the sunshade curtain is connected to the retractable mechanism, and the retractable mechanism is used to unfold or fold the sunshade curtain.
[0017] By incorporating a retraction mechanism, users can easily unfold or retract the sunshade to adapt to different lighting conditions and personal preferences. Furthermore, the retraction mechanism provides stable power and control, ensuring smooth and reliable operation of the sunshade and reducing the risk of jamming or malfunction.
[0018] According to some embodiments of the present invention, the unfolding mechanism includes a roller and a first driving device. The roller is rotatably mounted on the bracket, the sunshade is wound around the roller, and the first driving device is connected to the roller in a transmission manner.
[0019] Thus, the first drive unit drives the roller to rotate in different directions, enabling the sunshade to unfold and fold, making its operation simpler and more efficient. At the same time, the roller design allows the sunshade to be tightly rolled up when retracted, occupying minimal space and maintaining a neat and aesthetically pleasing roof.
[0020] In some embodiments, the sunroof assembly further includes: a second drive device disposed at the top of the vehicle, the second drive device being tractively connected to the sunroof glass, and the second drive device being used to drive the sunroof glass to open or close.
[0021] The introduction of the second drive unit makes the operation of the sunroof glass more automated. The automated sunroof operation reduces the number of manual steps for users, improves the overall user experience, and is especially safer and more convenient during driving.
[0022] In some embodiments, the sunroof assembly further includes:
[0023] The display screen is located on the side of the bracket opposite to the sunroof glass, and the display screen is slidably mounted on the bracket.
[0024] By incorporating a display screen, in-vehicle entertainment and information display equipment is added, which helps improve user satisfaction. Furthermore, the screen can be slidably mounted on the bracket, allowing users to adjust its position according to their needs. When not in use, the screen can be slid down for storage, reducing its footprint on passenger space.
[0025] Secondly, embodiments of this application provide a vehicle, including: a vehicle body; and the aforementioned sunroof assembly, wherein the sunroof assembly is disposed on the top of the vehicle body.
[0026] The vehicle of this invention, using the aforementioned sunroof assembly, features a sunshade that, when unfolded, is supported by guide members along a third direction towards the outside of the vehicle, resulting in a more aesthetically pleasing appearance. Furthermore, in the third direction, the interior has more space, facilitating the installation of entertainment features such as displays, thus improving the vehicle's space utilization. Attached Figure Description
[0027] Figure 1 This is a partial structural schematic diagram of the sunroof assembly provided in an embodiment of this application;
[0028] Figure 2 One of the cross-sectional structural schematic diagrams of the sunroof assembly provided in the embodiments of this application;
[0029] Figure 3 This is a second cross-sectional structural schematic diagram of the sunroof assembly provided in the embodiments of this application.
[0030] Figure label:
[0031] 100. Sunroof assembly;
[0032] 110. Bracket; 111. Guide rail; 112. Crossbeam; 113. Guide crossbeam;
[0033] 120. Skylight glass;
[0034] 130. Sunshade device; 131. Sunshade curtain; 132. Support component; 133. Guide component; 134. Retraction mechanism; 1341. Roller;
[0035] 140. Display screen. Detailed Implementation
[0036] To make the objectives, technical solutions, and advantages of the embodiments of this application clearer, the specific technical solutions of this application will be further described in detail below with reference to the accompanying drawings of the embodiments of this application. The following embodiments are used to illustrate this application, but are not intended to limit the scope of this application.
[0037] In the embodiments of this application, the terms "first" and "second" are used for descriptive purposes only and should not be construed as indicating or implying relative importance or implicitly specifying the number of indicated technical features. Therefore, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the embodiments of this application, unless otherwise stated, "multiple" means two or more.
[0038] Furthermore, in the embodiments of this application, directional terms such as "upper," "lower," "left," and "right" are defined relative to the positions in which the components are schematically placed in the accompanying drawings. It should be understood that these directional terms are relative concepts, used for relative description and clarification, and can change accordingly depending on the position of the components in the accompanying drawings.
[0039] In the embodiments of this application, unless otherwise explicitly specified and limited, the term "connection" should be interpreted broadly. For example, "connection" can mean a fixed connection, a detachable connection, or an integral part; it can mean a direct connection or an indirect connection through an intermediate medium.
[0040] In embodiments of this application, the terms "comprising," "including," or any other variations thereof are intended to cover non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements includes not only those elements but also other elements not expressly listed, or elements inherent to such a process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one..." does not exclude the presence of other identical elements in the process, method, article, or apparatus that includes that element.
[0041] In the embodiments of this application, the terms "exemplary" or "for example" are used to indicate that something is an example, illustration, or description. Any embodiment or design that is described as "exemplary" or "for example" in the embodiments of this application should not be construed as being more preferred or advantageous than other embodiments or design. Specifically, the use of the terms "exemplary" or "for example" is intended to present the relevant concepts in a specific manner.
[0042] In the current new energy vehicle market, consumers have increasingly diversified demands for vehicles, requiring not only a wide range of functions but also higher standards for aesthetics. As an important component of new energy vehicles, sunroofs need to effectively block sunlight and provide heat insulation, while also significantly impacting the overall aesthetics of the vehicle's interior.
[0043] When the existing sunshade is in use, it is prone to sagging or collapsing in the vertical direction due to insufficient gravity or structural support. This not only affects the functionality of the sunshade, but may also negatively impact the visual effect and riding experience inside the vehicle.
[0044] In view of this, the present application provides a sunroof assembly and vehicle. By providing a guide member that protrudes outward, when the sunshade is in the unfolded state, the guide member provides support for the sunshade in a third direction, preventing the sunshade from collapsing inward and improving the aesthetics of the vehicle interior.
[0045] For ease of explanation and understanding, please refer to... Figure 1 In this manual, the first direction can be the left or right direction of the vehicle, that is... Figure 1 In the X direction, the second direction can be the vehicle's forward or backward direction, i.e. Figure 1 In the Y direction, the third direction can be the vehicle's height direction, i.e. Figure 1 The Z direction is shown.
[0046] The following is combined Figures 1 to 3 This application provides a detailed description of the sunroof assembly and vehicle according to embodiments thereof.
[0047] refer to Figure 1 , Figure 2 and Figure 3 In one aspect, embodiments of this application provide a sunroof assembly 100, which can be a sunroof installed on the roof of a vehicle. The sunroof assembly 100 may include a bracket 110, a sunroof glass 120, and a sunshade device 130.
[0048] The bracket 110 is mounted on the sunroof, serving as the mounting base for the sunroof glass 120 and the sunshade device 130. The sunroof glass 120 is slidably mounted on the bracket 110. For example, the vehicle may be equipped with a power source (such as the second drive device described later) that drives the sunroof glass 120 to slide, thereby opening or closing the sunroof. Users can adjust the opening degree of the sunroof as needed to regulate the light and ventilation inside the vehicle.
[0049] The sunshade device 130 may include a sunshade curtain 131, a support member 132, and a guide member 133. The sunshade curtain 131 is retractable and foldable on the bracket 110. Exemplarily, the sunshade curtain 131 can be unfolded or folded by the user manually moving (or rolling) it, or it can be unfolded or folded electrically by an electric drive device (such as the first drive device described later). The folding process of the sunshade curtain 131 can involve folding it into a storage device on the bracket 110, or rolling it onto a roller 1341 on the bracket 110. When the sunshade curtain 131 is unfolded, it blocks the sunroof glass 120 to control sunlight and heat entering the vehicle, providing passenger comfort. When the sunshade curtain 131 is folded up, it reduces the space occupied in the vehicle interior, thus improving the vehicle's space utilization.
[0050] Support member 132 along the first direction ( Figure 1 Extending in the X direction (as shown), and along the second direction ( Figure 1 The sunshade 131 (shown in the Y direction) is slidably disposed on the bracket 110. The support member 132 is connected to the sunshade 131. Exemplarily, the sunshade 131 may have a first edge extending along a first direction. The first edge can be fixed to the support member 132 by adhesive or sewing. Thus, during the sliding of the support member 132, the sunshade 131 can move synchronously to realize the unfolding or folding operation. When the sunshade 131 is unfolded, it has two second edges spaced apart along the first direction. The second edges extend along the second direction, and the area between the two second edges is the area of the skylight glass 120 blocked by the sunshade 131.
[0051] Guide member 133 is disposed on bracket 110, guide member 133 extends along a second direction, and at least a portion of the structure of guide member 133 extends along a third direction. Figure 1The guide member 133 protrudes outward in the Z direction (as shown). For example, a portion of the guide member 133 along its length may protrude outward. When the sunshade 131 is in the unfolded state, the sunshade 131 is supported by the protruding portion of the guide member 133 towards the sunroof glass 120, keeping the sunshade 131 taut, preventing it from collapsing, and improving its aesthetic appeal. Alternatively, the guide member 133 may protrude entirely outward. In this case, the guide member 133 is formed as an arc shape, allowing it to more evenly distribute the impact and force received by the sunshade 131 when it is in the unfolded state.
[0052] The support member 132 and the guide member 133 are guided and slidably engaged. For example, the support member 132 may have a structure that guides and engages with the guide member 133. For instance, the support member 132 may have a guide hole extending along a second direction, through which the guide member 133 passes. During the unfolding and retracting of the sunshade 131, the support member 132 slides along the length direction of the guide member 133. Alternatively, it may be in a third direction (… Figure 1 In the Z direction shown, the support member 132 is located above the guide member 133. Under the gravity of the support member 132 and the sunshade curtain 131 connected to the support member 132, the lower side of the support member 132 slides in contact with the upper side of the guide member 133, and the support member 132 slides along the length direction of the guide member 133, thereby realizing the unfolding and folding of the sunshade curtain 131.
[0053] Understandably, in this embodiment, the support member 132 slides along the second direction to realize the unfolding and folding of the sunshade 131. In other embodiments of this application, the support member 132 may also extend along the second direction. In this case, the support member 132 may slide along the first direction to realize the unfolding and folding process of the sunshade 131. The specific arrangement direction of the support member 132 and the unfolding method of the sunshade 131 can be designed by the designer according to the specific interior space of the vehicle. This application does not limit this.
[0054] The sunroof assembly 100 of this utility model achieves the unfolding and folding of the sunshade 131 through the guiding sliding cooperation between the support member 132 and the guide member 133 along a second direction. During the unfolding process of the sunshade 131, the support member 132 slides smoothly along the second direction under the guidance of the guide member 133. After the sunshade 131 is unfolded, the guide member 133 provides support for the sunshade 131 along a third direction, preventing the sunshade 131 from collapsing towards the interior of the vehicle, which helps to improve the aesthetics of the vehicle interior.
[0055] Meanwhile, the guide 133 provides support for the sunshade 131 in a third direction, and in the third direction, there is enough space in the vehicle to install other equipment (such as the display or ambient lighting mentioned later) to improve the user's riding comfort.
[0056] refer to Figure 1 In some embodiments, the bracket 110 may include two guide rails 111 and two crossbeams 112. The two guide rails 111 are arranged at intervals along a first direction, and the two crossbeams 112 are arranged at intervals along a second direction. The crossbeams 112 may extend along the first direction, and the guide rails 111 may extend along the second direction. Thus, the two guide rails 111 and the two crossbeams 112 are connected to form a rectangular bracket 110. The crossbeams 112 and the guide rails 111 can be fixedly installed on the periphery of the sunroof by fasteners such as bolts or screws to provide stable support.
[0057] Furthermore, the guide member 133 is disposed between the two guide rails 111. The guide rails 111 are used to provide guidance for the support member 132. When the support member 132 moves to unfold the sunshade curtain 131, in order to improve the blocking effect of the sunshade curtain 131, the two second edges of the sunshade curtain 131 are respectively positioned close to the two guide rails 111. The guide member 133 is disposed between the two guide rails 111, which is beneficial to provide support for the sunshade curtain 131 and reduce the collapse of the sunshade curtain 131.
[0058] Thus, in this embodiment, the bracket 110 forms a stable frame structure, which is beneficial for supporting the sunroof glass 120. The guide 133 is set between the two guide rails 111, which is beneficial for making full use of the interior space. At the same time, when the sunshade 131 is unfolded, the guide 133 is beneficial for providing eye-oriented support to the sunshade 131, preventing the sunshade 131 from collapsing.
[0059] Furthermore, the two ends of the guide member 133 along the second direction are respectively connected to the middle of the two crossbeams 112 along the first direction. In other words, the guide member 133 is located in the middle position of the two crossbeams 112, and the two guide rails 111 are symmetrically arranged about the guide member 133. At this time, under the support of the guide member 133, the gravity distribution of the unfolded sunshade curtain 131 is uniform, and the guide member 133 provides good support for the sunshade curtain 131, which is conducive to improving the aesthetics of the sunshade curtain 131 in the unfolded state.
[0060] Understandably, in other embodiments of this application, the guide member 133 may also be configured as multiple members, and the multiple guide members 133 are arranged at equal intervals along the first direction. When the sunshade curtain 131 is unfolded, the multiple guide members 133 provide better support for the sunshade curtain 131.
[0061] Continue to refer to Figure 1According to some embodiments of this utility model, the two ends of the support member 132 along the first direction are slidably connected to two guide rails 111 respectively. For example, the guide rails 111 may be provided with guide grooves extending along the second direction, and a portion of the structure at the end of the support member 132 along the first direction extends into the guide groove and slides along the guide groove. Alternatively, a portion of the structure of the guide rail 111 may protrude and extend along the second direction to form a guide block, and a slot may be provided at the end of the support member 132 along the first direction, with the slot and the guide block slidingly engaging.
[0062] Thus, the two ends of the support member 132 are guided and engaged by the guide rail 111, and the middle part of the support member 132 is guided and engaged with the guide member 133, forming a multi-point engagement structure, which is conducive to improving the stability and reliability of the sunshade device 130 during operation and preventing the sunshade curtain 131 from getting stuck or unstable during movement.
[0063] According to some embodiments of this utility model, at least a portion of the structure of the support member 132 protrudes outward along a third direction toward the outside of the vehicle, and the protruding portion of the support member 132 slides and guides the guide member 133. For example, a portion of the middle structure of the support member 132 may protrude outward toward the outside of the vehicle, or the entire support member 132 may protrude outward, forming an arc-shaped structure. The sliding and guiding cooperation between the support member 132 and the guide member 133 has been described in detail above and will not be repeated here.
[0064] By making the support member 132 protrude outwards as well, the fit between the support member 132 and the guide member 133 becomes more stable, which helps to further improve the stability of the sunshade 131 during the opening and closing process. At the same time, the outward protrusion of the support member 132 causes part of the structure of the sunshade 131 connected to it to also protrude outwards as well, which helps to keep the sunshade 131 taut in the opened state, preventing the sunshade 131 from collapsing and improving the aesthetics of the sunshade 131 in the opened state.
[0065] Continue to refer to Figure 1 In some embodiments, the sunshade device 130 further includes a retractable mechanism 134, with the sunshade curtain 131 connected to the retractable mechanism 134. The retractable mechanism 134 is used to unfold or fold the sunshade curtain 131. Exemplarily, the retractable mechanism 134 may include a rolling mechanism, whereby the sunshade curtain 131 can be rotated in different directions with the roller 1341 to unfold and fold. Alternatively, the retractable mechanism 134 may also include a folding mechanism, whereby the sunshade curtain 131 may be provided with multiple folding plates arranged at intervals along a second direction. When the sunshade curtain 131 is unfolded, the folding plates unfold together with the sunshade curtain 131. When the sunshade curtain 131 is folded, the folding plates are folded and stored in sequence.
[0066] By incorporating the retraction mechanism 134, users can easily unfold or retract the sunshade 131 to adapt to different lighting conditions and personal preferences. Furthermore, the retraction mechanism 134 provides stable power and control, ensuring that the sunshade 131 remains smooth and reliable during operation, reducing the risk of jamming or malfunction.
[0067] According to some embodiments of this utility model, the unfolding mechanism 134 includes a roller 1341 and a first driving device (not shown in the figure). The roller 1341 is rotatably mounted on the bracket 110, and the sunshade 131 is wound around the roller 1341. The first driving device is driven by the roller 1341. Exemplarily, the first driving device can be driven by the roller 1341 through chain drive, belt drive, or gear drive. In this way, the first driving device drives the roller 1341 to rotate in different directions, realizing the unfolding and folding of the sunshade 131, making the operation of the sunshade 131 simpler and more efficient. At the same time, the design of the roller 1341 allows the sunshade 131 to be tightly rolled up when folded, occupying minimal space and keeping the roof neat and beautiful.
[0068] Optionally, the unfolding mechanism 134 may also include a secondary shaft and a pull rope. The secondary shaft and the roller 1341 are respectively located on two crossbeams 112. The two ends of the pull rope are connected to the secondary shaft and the roller 1341 respectively, and the pull rope is connected to the support member 132. During the process of the first driving device roller 1341 rotating to unfold or fold the sunshade curtain 131, the pull rope is tensioned, and the secondary shaft and the roller 1341 rotate synchronously. During the process, the pull rope pulls the support member 132 to move synchronously, which helps to improve the reliability of the unfolding and folding process of the sunshade curtain 131.
[0069] In some embodiments, the sunroof assembly 100 may further include a second drive unit (not shown in the figure), which is disposed at the top of the vehicle and is pulsatorically connected to the sunroof glass 120. The second drive unit is used to drive the sunroof glass 120 to open or close. Exemplarily, the output shaft of the second drive unit may be provided with a gear, and the vehicle may be provided with a rack and pinion. The sunroof glass 120 is driven to move through the gear and rack transmission to realize the opening and closing of the sunroof. Of course, the second drive unit may also drive the movement of the sunroof glass 120 through other transmission methods, such as driving the sunroof glass 120 to translate through a linkage mechanism to open or close the sunroof.
[0070] The introduction of the second drive unit makes the operation of the sunroof glass 120 more automated. The automated sunroof operation reduces the number of manual steps for users, improves the overall user experience, and is especially safer and more convenient during driving.
[0071] refer to Figure 1 and Figure 3In some embodiments, the sunroof assembly 100 may further include a display screen 140 located on the side of the bracket 110 opposite to the sunroof glass 120. By providing the display screen 140, in-vehicle entertainment and information display equipment is added. During vehicle operation, users can relax and enjoy entertainment through the sunroof display, which helps improve user satisfaction. In traditional vehicle designs, the sunshade 131 tends to collapse along the vehicle's height, resulting in it occupying a large height dimension. The sunshade 131 is prone to drooping and obstructing the sunroof display, affecting the user's riding experience.
[0072] In this embodiment, the guide member 133 provides third-party support for the sunshade 131, expanding the space utilization along the third direction of the vehicle to facilitate the installation of entertainment facilities such as the display screen 140. Simultaneously, the guide member 133 supports the sunshade 131, reducing the risk of collapse and preventing interference between the sunshade 131 and the display screen 140, thereby improving user satisfaction with the display screen 140.
[0073] refer to Figure 1 The display screen 140 is slidably mounted on the bracket 110. Exemplarily, a guide beam 113 is fixedly mounted on the bracket 110 using fasteners such as screws and bolts. A slot is provided on the side of the display screen 140 facing the guide beam 113, and the guide beam 113 is slidably engaged in the slot. By moving the display screen 140, the display screen 140 slides along the guide beam 113 to change its position. The guide beam 113 can be positioned above the rear seats of the vehicle and can extend in a first direction, allowing rear passengers to adjust the position of the display screen 140 as needed. Alternatively, the guide beam 113 can also extend in a second direction, allowing front or rear passengers to adjust the position of the display screen 140 as needed.
[0074] Furthermore, when the guide beam 113 is a structure extending along the second direction, the position of the guide beam 113 can correspond to the setting position of the guide member 133. On the one hand, the guide beam 113 provides support for the guide member 133, improving the support effect for the sunshade 131. On the other hand, in the direction along the third direction from inside the vehicle to outside the vehicle, the guide beam 113 blocks the guide member 133, which helps to improve the overall aesthetics of the sunroof assembly 100.
[0075] Thus, by allowing the display screen 140 to be slidably mounted on the bracket 110, users can easily adjust the position of the display screen 140 according to their needs. When the display screen 140 is not in use, users can slide it to store it, reducing the space occupied by the display screen 140 in the passenger area.
[0076] Secondly, this application provides a vehicle that may include a body body and the sunroof assembly 100 described above, with the sunroof assembly 100 located on the top of the body body.
[0077] It should be noted that the vehicle in this application can refer to large vehicles, small vehicles, special-purpose vehicles, etc. For example, according to vehicle type, the vehicle in this application can be a sedan, an off-road vehicle, a multi-purpose vehicle (MPV), or other types of vehicles. Generally, a vehicle is equipped with wheels, a power source, and a transmission system between the wheels and the power source. The transmission system can transmit the power provided by the power source to the wheels, causing the wheels to rotate and thus driving the vehicle.
[0078] It should be noted that the type of power source of the vehicle is not limited in the embodiments of this application. For example, for fuel vehicles, the power source can refer to fuel engines such as gasoline engines and diesel engines; for electric vehicles, the power source can refer to electric motors; for hybrid vehicles, the power source can refer to engines or electric motors; for vehicles powered by other means, the power source can refer to devices that generate power.
[0079] The vehicle of this invention, using the aforementioned sunroof assembly 100, features a sunshade 131 that, when unfolded, is supported by the guide member 133 along a third direction towards the outside of the vehicle, resulting in a more aesthetically pleasing appearance. Furthermore, in the third direction, more space is available inside the vehicle to accommodate entertainment features such as the display screen 140, improving the vehicle's space utilization. Simultaneously, it avoids interference between the sunshade 131 and the display screen 140 when unfolded, thus enhancing the user experience.
[0080] The sequence numbers of the embodiments in this application are for descriptive purposes only and do not represent the superiority or inferiority of the embodiments. The above are merely preferred embodiments of this application and do not limit the patent scope of this application. Any equivalent structural or procedural transformations made based on the content of this application's specification and drawings, or direct or indirect applications in other related technical fields, are similarly included within the patent protection scope of this application.
Claims
1. A sunroof assembly (100), comprising a sunroof disposed on the roof of a vehicle, characterized in that, include: Bracket (110) is provided at the skylight; The sunroof glass (120) is slidably mounted on the bracket (110). The sunshade device (130) includes: The sunshade (131) is retractable and mounted on the bracket (110) to cover the skylight glass (120). A support member (132) extends along a first direction and is slidably disposed on the bracket (110) along a second direction, and the support member (132) is connected to the sunshade (131); A guide (133) is disposed on the bracket (110), the guide (133) extends along a second direction, at least a portion of the structure of the guide (133) protrudes outward along a third direction, and the support (132) and the guide (133) are in a guide sliding fit.
2. The sunroof assembly (100) of claim 1, wherein, The bracket (110) includes two guide rails (111) spaced apart along a first direction and two crossbeams (112) spaced apart along a second direction. The two guide rails (111) and the two crossbeams (112) are connected to form the bracket (110). The guide (133) is disposed between the two guide rails (111).
3. The sunroof assembly (100) of claim 2, wherein, The guide member (133) is connected at both ends along the second direction to the middle of the two crossbeams (112) along the first direction.
4. The sunroof assembly (100) according to claim 2, characterized in that, The support member (132) is slidably connected to two guide rails (111) at both ends along the first direction.
5. The sunroof assembly (100) of claim 1, wherein, At least a portion of the structure of the support member (132) protrudes outward along a third direction, and the protruding portion of the support member (132) slides and guides the guide member (133).
6. The sunroof assembly (100) of claim 1, wherein, The sunshade device (130) also includes a retractable mechanism (134), the sunshade curtain (131) is connected to the retractable mechanism (134), and the retractable mechanism (134) is used to unfold or fold the sunshade curtain (131).
7. The sunroof assembly (100) of claim 6, wherein, The unfolding mechanism (134) includes a roller (1341) and a first driving device. The roller (1341) is rotatably mounted on the bracket (110). The sunshade (131) is wound around the roller (1341). The first driving device is connected to the roller (1341) in a transmission manner.
8. The sunroof assembly (100) of any one of claims 1-7, wherein, Also includes: A second drive unit is located at the top of the vehicle. The second drive unit is connected to the sunroof glass (120) and is used to drive the sunroof glass (120) to open or close.
9. The sunroof assembly (100) according to any one of claims 1-7, characterized in that, Also includes: The display screen (140) is located on the side of the bracket (110) opposite to the sunroof glass (120), and the display screen (140) is slidably mounted on the bracket (110).
10. A vehicle characterized by comprising: include: Vehicle body; The sunroof assembly (100) according to any one of claims 1-9, wherein the sunroof assembly (100) is disposed on the top of the vehicle body.