CN219769619U - Skylight structure with large-size skylight glass capable of being tilted - Google Patents

Abstract

The utility model discloses a skylight structure with large-size skylight glass capable of tilting, which comprises the skylight glass, a tilting mechanism and a frame, wherein the front end of the skylight glass is hinged with the front end of the frame, the tilting mechanism comprises a guide rail, a sliding block assembly and a inhaul cable, and the guide rail is respectively connected with the frame; the sliding block assembly is provided with three groups of guide members, each guide member comprises a guide part which inclines downwards, a mounting bracket is arranged below the edges of two sides of the skylight glass, the front end, the middle part and the rear end of the mounting bracket are respectively provided with a connecting part which is in sliding fit connection with the guide parts of the front guide member, the middle guide member and the rear guide member of the sliding block assembly, and a inhaul cable is connected with the sliding block assembly and connected with a driving motor. The sliding block assembly is driven by the driving motor, and under the action of the guide component, the rear end of the skylight glass is driven to rise or fall, so that the warping function of the skylight glass is realized; the three guide members are arranged, so that three supporting points are formed on the side edges of the skylight glass, the strength of the large-size skylight glass is increased, and the problem that the strength of the glass is weakened due to the overlarge size of the glass is solved.

Description

Skylight structure with large-size skylight glass capable of being tilted

Technical Field

The utility model relates to the technical field of automobile skylights, in particular to a skylight structure with large-size skylight glass capable of tilting.

Background

The existing automobile sunroof is generally divided into an openable sunroof and a fixed sunroof according to an opening function, the existing openable sunroof product is generally only suitable for a small-size sunroof, and a large-size sunroof is generally made into a fixed sunroof due to insufficient strength of tilting glass, so that the fixed sunroof product has no ventilation function.

Disclosure of Invention

The utility model aims to provide a skylight structure with a large-size skylight glass capable of tilting, which solves the technical problem that the large-size skylight in the prior art has no ventilation function.

In order to achieve the above purpose, the technical scheme of the utility model is as follows:

the utility model relates to a skylight structure capable of tilting of large-size skylight glass, which comprises the skylight glass, a tilting mechanism and a frame, wherein the front end of the skylight glass is hinged with the front end of the frame through a rotating module, two side frames of the frame comprise grooves for accommodating the tilting mechanism, the tilting mechanism comprises two guide rails, a sliding block assembly and two inhaul cables, and the two guide rails are respectively arranged in the grooves and connected with the frame; the sliding block assembly is arranged in the guide groove of the guide rail, the sliding block assembly is provided with three groups of guide members, each guide member comprises a guide part which inclines downwards, mounting brackets which extend and are arranged along the length direction are respectively arranged below the edges of two sides of the skylight glass, the front end, the middle part and the rear end of each mounting bracket are respectively provided with a connecting part and are connected with the guide parts of the front guide member, the middle guide member and the rear guide member of the sliding block assembly in a sliding fit manner, the front end of the inhaul cable is connected with the sliding block assembly, and the rear end of the inhaul cable is connected with a driving motor.

The rear end of the mounting bracket is connected with a rear guide member of the sliding block assembly through the rear tilting rod, the front end of a guide part of the rear guide member is provided with auxiliary guide parts symmetrically arranged with the rear guide member, the front end and the middle part of the rear tilting rod are respectively provided with a connecting part to be connected with the auxiliary guide part and the guide part of the rear guide member in a sliding fit manner, and the rear end of the rear tilting rod is hinged with the rear end of the mounting bracket.

The sliding block assembly comprises a first sliding block, a second sliding block and a third sliding block, wherein the first sliding block is provided with a front guide member, the second sliding block is provided with a middle guide member, the third sliding block is provided with a rear guide member, and the first sliding block, the second sliding block and the third sliding block are connected with the inhaul cable.

The guide member is a strip-shaped guide groove, two ends of the strip-shaped guide groove are provided with horizontal sections, the two horizontal sections are communicated through an inclined connecting section, and a connecting part of the mounting bracket is provided with a sliding foot which is in sliding connection with the strip-shaped guide groove.

The sliding foot is further improved in that the section of the sliding foot is in an oval shape as a whole, and the sliding foot at the front end and the middle part of the mounting bracket comprises an elastic sliding piece.

The rotary module comprises a first connecting block, a second connecting block and a rotary shaft, wherein the front end of the frame is provided with a mounting through hole, hinge seats are arranged on two sides of the mounting through hole, the first connecting block is connected with the hinge seats through the rotary shaft, the second connecting block is connected with the first connecting block through screws, and the second connecting block is connected with a vertical mounting plate at the front end of the skylight glass through screws.

The skylight glass is further improved in that connecting pieces are arranged below the edges of the two sides of the skylight glass, the connecting pieces are connected with the skylight glass into a whole through a plastic wrapping process or a structural adhesive bonding process, mounting holes are formed in the connecting pieces, screw holes are formed in the mounting supports, the mounting supports are connected with the connecting pieces through screws, mounting notches are formed in the groove walls of the frame, and the positions of the mounting notches correspond to the positions of the mounting holes.

The guide device is characterized in that the front guide member and the middle guide member of the slide block assembly comprise a slide block and a guide support, the front end and the rear end of the guide support are hinged to the connecting portion of the mounting support, the bottom of the guide support is provided with a guide convex rib which is inclined downwards integrally, the upper end of the slide block is provided with a buckle engaged with the guide convex rib, the buckle is connected with the guide convex rib in a sliding fit manner, and the slide block is connected with the inhaul cable.

The improvement is that the upper surface of the frame is provided with an annular sealing strip.

The further improvement is that the lower surfaces of the front end and the rear end of the skylight glass are provided with reinforcing pieces.

According to the skylight structure, the front end of the large-size skylight glass is hinged with the frame through the rotating module, the rear ends of the side edges of the skylight glass are connected through the sliding block assembly with the three groups of guide members, the sliding block assembly is driven by the driving motor, and the rear end of the skylight glass is driven to rise or fall under the action of the guide members, so that the warping function of the skylight glass is realized; three guide members are arranged on the side edge of the skylight glass, so that three supporting points are formed on the side edge of the skylight glass, the strength of the large-size skylight glass can be effectively increased, and the problem that the strength of the glass is weakened due to the oversized glass is solved; the rear tilting rod is arranged at the rear end of the skylight glass, so that the rear end of the skylight glass can reach a higher tilting position in the effective stroke of the sliding block assembly; through setting up connecting piece with skylight glass's both sides edge to adopt the screw to dismantle with the installing support and be connected, the assembly of skylight structure of being convenient for reaches the effect of simplifying assembly process.

Drawings

FIG. 1 is a schematic view of a large-sized sunroof glass of the present utility model in a tilted sunroof structure;

fig. 2 and 3 are schematic cross-sectional views of an assembling structure of the tilting mechanism in the present utility model;

FIG. 4 is a schematic diagram of a rotary module;

fig. 5 and 6 are schematic diagrams of assembly structures of the rotary module and the skylight glass and frame;

FIG. 7 is a schematic view of the structure of the slider at the front and middle of the mounting bracket;

FIG. 8 is a schematic view of the assembly structure of the slider and the strip-shaped guide groove in the middle of the mounting bracket (the slider is in the closed state of the sunroof glass);

fig. 9 is a schematic structural diagram of a tilting mechanism in another embodiment.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Example 1

As shown in fig. 1 to 8, the utility model provides a large-size skylight structure capable of tilting, comprising skylight glass 1, tilting mechanism 2 and frame 3, wherein the front end of skylight glass 1 is hinged with the front end of frame 3 through rotary module 11, the two side frames of frame 3 comprise grooves 31 for accommodating the tilting mechanism, tilting mechanism 2 comprises two guide rails 21, a sliding block assembly 22 and two inhaul cables 23, and two guide rails 21 are respectively arranged in grooves 31 and connected with frame 3; the sliding block assembly 22 is arranged in the guide groove 210 of the guide rail 21, the sliding block assembly 22 is provided with three groups of guide members, each guide member comprises a guide part 20 which inclines downwards, mounting brackets 13 which extend and are arranged along the length direction are respectively arranged below the edges of two sides of the skylight glass 1, the front end, the middle part and the rear end of each mounting bracket 13 are respectively provided with a connecting part 131 which is in sliding fit connection with the guide parts 20 of the front guide member, the middle guide member and the rear guide member of the sliding block assembly 22, the front end of the inhaul cable 23 is connected with the sliding block assembly 22, and the rear end of the inhaul cable 23 is connected with a driving motor 4.

Specifically, the sliding block assembly 22 includes a first sliding block 201, a second sliding block 202, and a third sliding block 203, the first sliding block 201 is provided with the front guiding member, the second sliding block 202 is provided with the middle guiding member, the third sliding block 203 is provided with the rear guiding member, and the first sliding block 201, the second sliding block 202, and the third sliding block 203 are connected with the inhaul cable 23; in practical production application, the guide member is a bar-shaped guide groove, preferably, two ends of the bar-shaped guide groove are provided with horizontal sections, the two horizontal sections are communicated by an inclined connecting section to form a zigzag-like guide part 20, and the connecting part 131 of the mounting bracket 13 is provided with a sliding foot in sliding connection with the bar-shaped guide groove.

As a preferred embodiment of the present utility model, the lower surface of the front end of the skylight glass 1 is provided with a reinforcement 10 and the lower surface of the rear end is provided with a reinforcement 12, wherein the reinforcement 10 is formed with vertical mounting plates 100 near both ends.

As a preferred solution of the present utility model, in order to avoid overconstraining or absorbing tolerance of the sliding structure of the sliding assembly, a further improvement is that the cross section of the sliding foot is in an oval shape, the front end of the mounting bracket 13, the sliding foot in the middle part of the mounting bracket comprises a sliding vane 132 with elasticity, in practical application, a filler with elasticity, such as elastic rubber or other materials with better elasticity, can be arranged between the sliding vane 132 and the sliding foot body, so as to increase the elasticity of the elastic sliding vane 132, and the sliding foot is always in full contact with the bar-shaped guide groove during sliding, or can provide enough tension force for controlling the skylight glass when exceeding the design range of travel.

The further improvement lies in, the tilting mechanism 2 further includes a rear tilting lever 24, the rear end of the mounting bracket 13 is connected with the rear guiding member of the slider assembly 22 through the rear tilting lever 24, the front end of the guiding portion 20 of the rear guiding member is provided with a secondary guiding portion 20' symmetrically arranged therewith, the front end and the middle portion of the rear tilting lever 24 are respectively provided with a connecting portion 131 and the secondary guiding portion 20' of the rear guiding member are connected in a sliding fit manner, at this time, the connecting portion 131 at the front end and the middle portion of the rear tilting lever 24 is connected with the secondary guiding portion 20' in a sliding fit manner by adopting a simple round pin shaft structure, and the rear end of the rear tilting lever 24 is hinged with the rear end of the mounting bracket 13.

The further improvement is that the rotary module 11 comprises a first connecting block 101, a second connecting block 102 and a rotary shaft 103, the front end of the frame 3 is provided with a mounting through hole 33, two sides of the mounting through hole 33 are provided with hinge seats 34, the first connecting block 101 is connected with the hinge seats 34 through the rotary shaft 103, the second connecting block 102 is connected with the first connecting block 101 through a screw 104, and the second connecting block 102 is connected with a vertical mounting plate 100 at the front end of the skylight glass 1 through a screw 105.

As a preferred scheme of the utility model, a further improvement is that connecting pieces 14 are arranged below two side edges of the skylight glass 1, the connecting pieces 14 are connected with the skylight glass 1 into a whole through a plastic wrapping process, mounting holes are formed in the connecting pieces 14, screw holes are formed in the mounting brackets 13, the mounting brackets 13 are connected with the connecting pieces 14 through screws, mounting notches 32 are formed in the groove walls of the frame 3, and the positions of the mounting notches 32 correspond to the positions of the mounting holes.

As a preferred embodiment of the present utility model, a further improvement is that the upper surface of the frame 3 is provided with an annular sealing strip 5, and the lower surface of the skylight glass 1 is closely attached to the annular sealing strip 5 when the skylight glass is closed.

According to the skylight structure, the front end of the large-size skylight glass is hinged with the frame through the rotating module, the rear end of the skylight glass is connected through the sliding block assembly with three groups of guide members, the sliding block assembly is driven by the driving motor, and the rear end of the skylight glass is driven to rise or fall under the action of the guide members, so that the warping function of the skylight glass is realized; three guide members are arranged on the side edge of the skylight glass, so that three supporting points are formed on the side edge of the skylight glass, the strength of the large-size skylight glass can be effectively increased, and the problem that the strength of the glass is weakened due to the oversized glass is solved; the rear tilting rod is arranged at the rear end of the skylight glass, so that the rear end of the skylight glass can reach a higher tilting position in the effective stroke of the sliding block assembly; through setting up connecting piece with skylight glass's both sides edge to adopt the screw to dismantle with the installing support and be connected, the assembly of skylight structure of being convenient for reaches the effect of simplifying assembly process.

Example 2

As shown in fig. 9, embodiment 2 is another embodiment of the tilting mechanism, which is basically the same as embodiment 1, and the details of the embodiment are not repeated, and the difference is that the front guide member and the middle guide member of the slider assembly 22 include a slider 220 and a guide bracket 221, the front end and the rear end of the guide bracket 221 are hinged to the connection portion of the mounting bracket 13, a guiding rib 222 that is inclined downward is integrally provided at the bottom of the guide bracket 221, and a buckle engaged with the guiding rib 222 is provided at the upper end of the slider 220, and is connected with the guiding rib 222 in a sliding fit manner, and the slider 220 is connected with the guy cable 23.

It should be understood that the terms used herein are intended to cover any and all conventional practice of the utility model, including the terms used herein and the drawings, as they are not to be construed as limiting the scope of the utility model.

The present utility model has been described in detail with reference to the embodiments of the drawings, and those skilled in the art can make various modifications to the utility model based on the above description. Accordingly, certain details of the illustrated embodiments are not to be taken as limiting the utility model, which is defined by the appended claims.

Claims (10)

1. The skylight structure is characterized by comprising skylight glass, a tilting mechanism and a frame, wherein the front end of the skylight glass is hinged with the front end of the frame through a rotating module, two side frames of the frame comprise grooves for accommodating the tilting mechanism, the tilting mechanism comprises two guide rails, a sliding block assembly and two inhaul cables, and the two guide rails are respectively arranged in the grooves and connected with the frame; the sliding block assembly is arranged in the guide groove of the guide rail, the sliding block assembly is provided with three groups of guide members, each guide member comprises a guide part which inclines downwards, mounting brackets which extend and are arranged along the length direction are respectively arranged below the edges of two sides of the skylight glass, the front end, the middle part and the rear end of each mounting bracket are respectively provided with a connecting part and are connected with the guide parts of the front guide member, the middle guide member and the rear guide member of the sliding block assembly in a sliding fit manner, the front end of the inhaul cable is connected with the sliding block assembly, and the rear end of the inhaul cable is connected with a driving motor.

2. The skylight structure according to claim 1, wherein the tilting mechanism further comprises a rear tilting rod, the rear end of the mounting bracket is connected with the rear guide member of the slider assembly through the rear tilting rod, the front end of the guide portion of the rear guide member is provided with auxiliary guide portions symmetrically arranged with the rear guide member, the front end and the middle portion of the rear tilting rod are respectively provided with a connecting portion in sliding fit with the auxiliary guide portion and the guide portion of the rear guide member, and the rear end of the rear tilting rod is hinged with the rear end of the mounting bracket.

3. The sunroof structure according to claim 1 or 2, wherein the slider assembly comprises a first slider, a second slider, and a third slider, the first slider being provided with the front guide member, the second slider being provided with the middle guide member, the third slider being provided with the rear guide member, the first slider, the second slider, and the third slider being connected to the cable.

4. A skylight structure according to claim 3, wherein the guide member is a bar-shaped guide groove, two ends of the bar-shaped guide groove are provided with horizontal sections, the two horizontal sections are communicated by an inclined connecting section, and a connecting part of the mounting bracket is provided with a sliding foot in sliding connection with the bar-shaped guide groove.

5. The sunroof structure according to claim 4, wherein the slider has an elliptical cross section, and the front and middle slider of the mounting bracket comprises a resilient slider.

6. The sunroof structure according to claim 1, wherein the rotation module comprises a first connection block, a second connection block and a rotation shaft, the front end of the frame is provided with a mounting through hole, hinge seats are provided on both sides of the mounting through hole, the first connection block is connected with the hinge seats through the rotation shaft, the second connection block is connected with the first connection block through a screw, and the second connection block is connected with a vertical mounting plate of the front end of the sunroof glass through a screw.

7. The skylight structure according to claim 1, wherein connecting pieces are arranged below edges of two sides of the skylight glass, the connecting pieces are connected with the skylight glass into a whole through a plastic wrapping process, mounting holes are formed in the connecting pieces, screw holes are formed in the mounting brackets, the mounting brackets are connected with the connecting pieces through screws, mounting notches are formed in groove walls of the frame, and the positions of the mounting notches correspond to those of the mounting holes.

8. The sunroof structure according to claim 1, wherein the front and middle guide members of the slider assembly comprise a slider and a guide bracket, the front and rear ends of the guide bracket are hinged to the connecting portion of the mounting bracket, the bottom of the guide bracket is provided with a guide rib which is inclined downward as a whole, the upper end of the slider is provided with a buckle engaged with the guide rib, the buckle is connected with the guide rib in a sliding fit manner, and the slider is connected with the guy cable.

9. The skylight structure of claim 1, wherein the frame upper surface is provided with an annular seal.

10. The sunroof structure according to claim 1, wherein the front and rear ends of the sunroof glass are provided with reinforcing members on lower surfaces thereof.