CN217227263U

CN217227263U - Skylight sunshade screen device

Info

Publication number: CN217227263U
Application number: CN202220593991.9U
Authority: CN
Inventors: 孔德盛
Original assignee: WM Smart Mobility Shanghai Co Ltd
Current assignee: WM Smart Mobility Shanghai Co Ltd
Priority date: 2022-03-17
Filing date: 2022-03-17
Publication date: 2022-08-19
Anticipated expiration: 2032-03-17

Abstract

The utility model discloses a skylight sunshade curtain device, which comprises a first bracket, a second bracket and two guide rails connected between the first bracket and the second bracket; the skylight sunshade device further comprises an upper sunshade and a lower sunshade which are slidably arranged on the two guide rails, wherein the upper sunshade and the lower sunshade respectively have an opening state and a closing state; the upper sunshade curtain is a fabric sunshade curtain, and the lower sunshade curtain is a shading cloth sunshade curtain. The utility model discloses a skylight sunshade screen device, through the fabric sunshade screen of configuration upper strata and the shading cloth sunshade screen of lower floor, can satisfy the user demand of different scenes, at the not strong ordinary scene of sunshine light, pack up shading cloth sunshade screen, only use the fabric sunshade screen, the light is sufficient in the car. In a special scene in hot weather or when the sun shines directly, the fabric sunshade curtain is opened to shield the sunlight, so that the user can be effectively prevented from being shined directly by the sun, the temperature in the vehicle can be reduced, and the user experience is improved.

Description

Skylight sunshade screen device

Technical Field

The utility model relates to an automobile skylight technical field especially relates to a skylight sunshade screen device.

Background

The car that uses the panorama skylight adopts the individual layer sunshade screen to shelter from sunshine more, and the sunshade screen can curl and accomodate, but the sunshade screen can't be like the effectual sunshine that shelters from of sunshading board. The sun-shading curtain can enable light rays in the automobile to be more sufficient, but in hot summer, particularly when the sun shines directly, the temperature in the automobile can be increased rapidly, and the riding experience is affected.

In view of this, it is necessary to provide a sunroof shade device having a double-layered shade to meet the requirements of different scenes.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome prior art not enough, provide a skylight sunshade screen device with double-deck sunshade screen is in order to satisfy different scene demands.

The technical scheme of the utility model provides a skylight sunshade curtain device, which comprises a first bracket, a second bracket and two guide rails connected between the first bracket and the second bracket;

wherein the sunroof shade device further comprises an upper shade and a lower shade slidably disposed on the two guide rails, the upper shade and the lower shade having an open state and a closed state, respectively;

the upper sunshade curtain is a fabric sunshade curtain, and the lower sunshade curtain is a shading cloth sunshade curtain.

The utility model provides a skylight sunshade screen device, through the fabric sunshade screen of configuration upper strata and the shading cloth sunshade screen of lower floor, can satisfy the user demand of different scenes, improved user experience. In a common scene with cool weather or weak sunshine, the shading cloth sunshade curtain is folded, and only the fabric sunshade curtain is used, so that the light in the vehicle is sufficient. In a special scene in hot weather or when the sun shines directly, the fabric sunshade curtain is opened to shield the sunlight, so that the user can be effectively prevented from being shined directly by the sun, the temperature in the vehicle can be reduced, and the user experience is improved.

In one optional solution, the guide rail has an upper rail and a lower rail;

an upper sunshade curtain scroll for winding the upper sunshade curtain is installed on the first support, one end of the upper sunshade curtain is connected to the upper sunshade curtain scroll, the other end of the upper sunshade curtain is connected with an upper sunshade curtain cross beam, and two ends of the upper sunshade curtain cross beam are connected with the two upper rails in a sliding mode;

the second support is provided with a lower sunshade screen scroll for winding the lower sunshade screen, one end of the lower sunshade screen is connected to the lower sunshade screen scroll, the other end of the lower sunshade screen is connected with a lower sunshade screen cross beam, and two ends of the lower sunshade screen cross beam are connected with the two lower rails in a sliding manner.

The upper shade rail is slidable along the upper track. When the upper sunshade curtain is folded, the cross beam of the upper sunshade curtain slides towards the side of the roller shaft of the upper sunshade curtain, and the upper sunshade curtain is wound on the roller shaft of the upper sunshade curtain; when the upper sunshade curtain is opened, the upper sunshade curtain cross beam is driven to slide towards the direction far away from the upper sunshade curtain rolling shaft so as to pull out and unfold the upper sunshade curtain from the upper sunshade curtain rolling shaft side, and the operation is convenient.

The lower shade rail is slidable along the lower track. When the lower sunshade curtain is folded, the cross beam of the lower sunshade curtain slides towards the side of the roller shaft of the lower sunshade curtain, and the lower sunshade curtain is wound on the roller shaft of the lower sunshade curtain; when the lower sunshade curtain is opened, the lower sunshade curtain cross beam is driven to slide towards the direction far away from the lower sunshade curtain rolling shaft so as to pull out and unfold the lower sunshade curtain from the lower sunshade curtain rolling shaft side, and the operation is convenient.

The upper sunshade curtain scroll and the lower sunshade curtain scroll are arranged on different sides, the opening and closing directions of the upper sunshade curtain and the lower sunshade curtain are opposite, and the excessive thickness of the first support or the second support can be avoided.

In one optional technical scheme, two ends of the upper sunshade curtain beam are respectively connected with an upper sliding block, and the upper sliding blocks are connected with the upper rail in a sliding manner, so that the upper sunshade curtain beam and the upper rail can be conveniently assembled.

In one optional technical scheme, two ends of the lower sunshade curtain cross beam are respectively connected with a lower sliding block, and the lower sliding blocks are connected with the lower rail, so that the lower sunshade curtain cross beam and the lower rail can be conveniently assembled.

In an alternative solution, the upper shade is provided with an upper shade coil spring for winding the upper shade around the upper shade roller. When the upper sunshade curtain beam slides towards the upper sunshade curtain scroll, the upper sunshade curtain is automatically wound on the upper sunshade curtain scroll under the action of the upper sunshade curtain coil spring.

In an optional technical scheme, two upper sunshade curtain coil springs are respectively installed on two side edges of the upper sunshade curtain, so that the upper sunshade curtain is integrally wound on the upper sunshade curtain reel.

In one optional technical scheme, a lower sun-shading curtain coil spring for winding the lower sun-shading curtain on the lower sun-shading curtain reel is arranged on the lower sun-shading curtain. When the lower sunshade curtain beam slides towards the lower sunshade curtain scroll, the lower sunshade curtain automatically winds on the lower sunshade curtain scroll under the action of the lower sunshade curtain coil spring.

In an optional technical scheme, two side edges of the lower sunshade curtain are respectively provided with one lower sunshade curtain coil spring, so that the lower sunshade curtain is integrally wound on the lower sunshade curtain reel.

In one optional technical scheme, an upper beam driving mechanism for driving the upper sunshade curtain beam to slide back and forth is installed on the first support, and the output end of the upper beam driving mechanism is connected with the upper sunshade curtain beam, so that the automatic opening and closing of the upper sunshade curtain are realized.

In one optional technical scheme, a lower cross beam driving mechanism used for driving the lower sunshade curtain cross beam to slide back and forth is installed on the second support, and the output end of the lower cross beam driving mechanism is connected with the lower sunshade curtain cross beam, so that the lower sunshade curtain is automatically opened and closed.

By adopting the technical scheme, the method has the following beneficial effects:

Drawings

The disclosure of the present invention will become more readily understood by reference to the drawings. It should be understood that: these drawings are for illustrative purposes only and are not intended to limit the scope of the present disclosure. In the figure:

fig. 1 is a perspective view of a sunroof shade device according to an embodiment of the present invention;

FIG. 2 is an enlarged view of the first bracket end of the sun shade assembly of FIG. 1;

FIG. 3 is an enlarged view of a second bracket end of the sunroof shade device of FIG. 1;

FIG. 4 is a schematic view of the upper and lower sliders in cooperation with the upper and lower rails of the guide rail;

FIG. 5 is a schematic view of an upper shade coil spring disposed on the upper shade;

FIG. 6 is a schematic view of a lower covering with a lower covering coil spring disposed thereon.

Detailed Description

The following describes the present invention with reference to the accompanying drawings. In which like parts are designated by like reference numerals. It should be noted that the terms "front," "back," "left," "right," "upper" and "lower" used in the following description refer to directions in the drawings, and the terms "inner" and "outer" refer to directions toward and away from, respectively, the geometric center of a particular component.

As shown in fig. 1-6, an embodiment of the present invention provides a sunroof shade device, which includes a first bracket 1, a second bracket 2, and two guide rails 3 connected between the first bracket 1 and the second bracket 2.

Wherein the sunroof shade device further comprises an upper shade 4 and a lower shade 5 slidably arranged on the two guide rails 3, the upper shade 4 and the lower shade 5 having an open state and a closed state, respectively.

Wherein, the upper sunshade screen 4 is a fabric sunshade screen, and the lower sunshade screen 5 is a shading cloth sunshade screen.

The utility model provides a skylight sunshade screen device is used for disposing in sunroof's skylight glass's below, plays the effect of sheltering from central sunshine.

The sunroof shade device includes a first bracket 1, a second bracket 2, two guide rails 3, an upper shade 4, and a lower shade 5.

The first bracket 1 and the second bracket 2 are arranged at intervals in the front-back direction. Two guide rails 3 are connected between the left and right ends of the first bracket 1 and the second bracket 2, and the two guide rails 2 are arranged in parallel.

The upper shade 4 is a fabric shade, which is fitted to the two guide rails 3, and the upper shade 4 is slidably retracted and extended on the guide rails 3. The fabric sunshade curtain allows partial sunlight to pass through to increase the brightness in the vehicle.

The lower sunshade curtain 5 is a sunshade cloth sunshade curtain and is also assembled on the two guide rails 3, the lower sunshade curtain 5 is positioned below the upper sunshade curtain 4, and the lower sunshade curtain 5 can be folded and unfolded in a sliding way on the guide rails 3. The shading cloth sunshade curtain plays a role in shading and can prevent direct sunlight.

The upper and

lower curtains

4 and 5 may be manually retracted and deployed. A drive mechanism may also be used to control the retraction and deployment of the upper and

lower shades

4, 5 as desired.

Therefore, the utility model provides a skylight sunshade screen device through the fabric sunshade screen of configuration upper strata and the shading cloth sunshade screen of lower floor, can satisfy the user demand of different scenes, has improved user experience. In the common scene of cool weather or weak sunshine, the sunshade curtain made of the sunshade cloth is folded, and the light in the vehicle is sufficient only by using the fabric sunshade curtain. In a special scene in hot weather or when the sun shines directly, the fabric sunshade curtain is opened to shield the sunlight, so that the user can be effectively prevented from being shined directly by the sun, the temperature in the vehicle can be reduced, and the user experience is improved.

In one embodiment, as shown in fig. 1-4, the guide rail 3 has an upper rail 31 and a lower rail 32.

An upper sunshade curtain scroll 6 used for winding the upper sunshade curtain 4 is installed on the first support 1, one end of the upper sunshade curtain 4 is connected to the upper sunshade curtain scroll 6, the other end of the upper sunshade curtain 4 is connected with an upper sunshade curtain cross beam 8, and two ends of the upper sunshade curtain cross beam 8 are slidably connected with the two upper rails 31.

The second support 2 is provided with a lower sunshade roller 7 for winding the lower sunshade 5, one end of the lower sunshade 5 is connected to the lower sunshade roller 7, the other end of the lower sunshade 5 is connected to a lower sunshade beam 9, and two ends of the lower sunshade beam 9 are slidably connected with the two lower rails 32.

In this embodiment, the guide rail 3 has an upper rail 31 and a lower rail 32, the upper rail 31 is used for being assembled with the upper sunshade cross beam 8, the upper sunshade roller 6 is installed on the first bracket 1, one end of the upper sunshade 4 is connected to the upper sunshade roller 6, the upper sunshade cross beam 8 is connected to the other end of the upper sunshade 4, two ends of the upper sunshade cross beam 8 are slidably connected to the two upper rails 31, and the upper sunshade cross beam 8 can slide along the upper rails 31. When the upper shade 4 is retracted, the upper shade cross member 8 slides toward the upper shade roller shaft 6, and the upper shade 4 is wound around the upper shade roller shaft 6. When the upper shade 4 is opened, the upper shade cross member 8 is driven to slide in a direction away from the upper shade roller 6 to pull out and unwind the upper shade 4 from the upper shade roller 6 side, facilitating the operation.

The lower rails 32 are used for being assembled with the lower sunshade curtain cross beams 9, the lower sunshade curtain scroll 7 is installed on the second support 2, one end of the lower sunshade curtain 5 is connected to the lower sunshade curtain scroll 7, the lower sunshade curtain cross beams 9 are connected to the other end of the lower sunshade curtain 5, two ends of the lower sunshade curtain cross beams 9 are connected with the two lower rails 32 in a sliding mode, and the lower sunshade curtain cross beams 9 can slide along the lower rails 32. When the lower shade 5 is retracted, the lower shade cross member 9 slides toward the lower shade roller 7 side, and the lower shade 5 is wound around the lower shade roller 7. When the lower shade 5 is opened, the lower shade cross member 9 is driven to slide in a direction away from the lower shade roller 7 to pull out and deploy the lower shade 5 from the lower shade roller 7 side, facilitating the operation.

The upper sunshade roller 6 and the lower sunshade roller 7 are arranged on different sides, the opening and closing directions of the upper sunshade 4 and the lower sunshade 5 are opposite, and the excessive thickness of the first bracket 1 or the second bracket 2 can be avoided.

In one embodiment, as shown in fig. 4, the upper sliding blocks 10 are respectively connected to two ends of the upper sunshade cross beam 8, and the upper sliding blocks 10 are slidably connected to the upper rails 31, so as to facilitate the assembly of the upper sunshade cross beam 8 and the upper rails 31.

The upper rail 31 is opened upward, the upper shoe 10 includes an upper shoe main body 101 and an upper shoe 102 attached to the upper shoe main body 101, the upper shoe 102 is clearance-fitted in the upper rail 31, and the upper shoe main body 101 is attached to the upper sunshade cross member 8.

In one embodiment, as shown in fig. 4, the lower sliding blocks 11 are respectively connected to two ends of the lower shade cross beam 9, and the lower sliding blocks 11 are connected to the lower rails 32, so as to facilitate the assembly of the lower shade cross beam 9 and the lower rails 32.

The opening of the lower rail 32 faces downward, the lower slider 11 includes a lower slider main body 111 and a lower slide plate 112 connected to the lower slider main body 111, the lower slide plate 112 is clearance-fitted in the lower rail 32, and the lower slider main body 111 is connected to the lower shade cross member 9.

In one embodiment, as shown in FIG. 5, an upper blind coil spring 12 for winding the upper blind 4 around the upper blind reel 6 is provided on the upper blind 4. The upper blind coil spring 12 is in a wound state in an initial state, and when the upper blind beam 8 is pulled out by a force, the upper blind coil spring 12 is unfolded along with the upper blind 4. When the upper sunshade 4 is retracted, the upper sunshade beam 8 slides towards the upper sunshade scroll 6, the upper sunshade coil spring 12 automatically resets, and the upper sunshade 4 is automatically wound on the upper sunshade scroll 6 under the action of the upper sunshade coil spring 12.

In one embodiment, as shown in fig. 5, two upper blind coil springs 12 are respectively installed at both side edges of the upper blind 4, so that the upper blind 4 is integrally wound around the upper blind reel 6.

In one embodiment, as shown in fig. 6, the lower shade 5 is provided with a lower shade coil spring 13 for winding the lower shade 5 around the lower shade roller shaft 7. The lower blind coil spring 13 is in a wound state at an initial state, and the lower blind coil spring 13 is unwound with the lower blind 5 when the lower blind cross member 9 is pulled out by a force. When the lower sunshade curtain 5 is retracted, the lower sunshade curtain cross beam 9 slides towards the lower sunshade curtain scroll 7, the lower sunshade curtain coil spring 13 automatically resets, and the lower sunshade curtain 5 automatically winds on the lower sunshade curtain scroll 7 under the action of the lower sunshade curtain coil spring 13.

In one embodiment, as shown in fig. 6, a lower roller shutter coil 13 is mounted to each of both side edges of the lower roller shutter 5, so that the lower roller shutter 5 is integrally wound around the lower roller shutter shaft 7.

In one embodiment, as shown in fig. 2, an upper beam driving mechanism 14 for driving the upper shade beam 8 to slide back and forth is installed on the first bracket 1, and the output end of the upper beam driving mechanism 14 is connected with the upper shade beam 8, so that the upper shade 4 can be automatically opened and closed.

The upper beam driving mechanism 14 may adopt a linear driving structure, such as a flexible shaft driving mechanism of a first motor used in the field of existing cylinders and skylights.

When the first cylinder is adopted, the cylinder barrel of the first cylinder is arranged on the first support 1, and the piston rod of the first cylinder is connected with the upper sliding block 10 or directly connected with the end part of the upper sunshade curtain beam 8.

The first motor flexible shaft driving mechanism comprises a first motor 141, a first driving wheel 142 and two first flexible shafts 143. First motor 141 fixed mounting is on first support 1, and first drive wheel 142 is installed on first support 1 through the pivot, and two first flexible axle 143 synchronous motion can be ordered about to first drive wheel 142. The two first flexible shafts 143 are respectively engaged with the first driving wheels 142, and the end portions of the two first flexible shafts 143 are respectively positioned in the upper track 31 and connected with the upper slide block 10, and can also be directly connected with the end portion of the upper sunshade curtain beam 8.

When the first motor 141 rotates forward, the upper sunshade curtain beam 8 is driven by the two first flexible shafts 143 to move towards the second bracket 2 so as to open the upper sunshade curtain 4. When the first motor 141 rotates reversely, the upper sunshade curtain beam 8 is driven by the two first flexible shafts 143 to move towards the first bracket 1 so as to pack up the upper sunshade curtain 4.

In one embodiment, as shown in fig. 3, a lower beam driving mechanism 15 for driving the lower sunshade cross beam 9 to slide back and forth is installed on the second bracket 2, and an output end of the lower beam driving mechanism 15 is connected with the lower sunshade cross beam 9, so that the lower sunshade 5 is automatically opened and closed.

The lower beam driving mechanism 15 can adopt a linear driving structure, such as a flexible shaft driving mechanism of a second motor adopted in the fields of the existing air cylinder and the existing skylight.

When the second cylinder is adopted, the cylinder barrel of the second cylinder is arranged on the second support 2, and the piston rod of the second cylinder is connected with the lower sliding block 11 or directly connected with the end part of the lower sunshade curtain beam 9.

The second motor flexible shaft driving mechanism comprises a second motor 151, a second driving wheel 152 and two second flexible shafts 153. The second motor 151 is fixedly mounted on the second bracket 2, the second driving wheel 152 is mounted on the second bracket 2 through a rotating shaft, and the second driving wheel 152 can drive the two second flexible shafts 153 to move synchronously. The two second flexible shafts 153 are respectively meshed with the second driving wheel 152, and the end parts of the two second flexible shafts 153 are respectively positioned in the lower track 32 and connected with the lower slider 11, and can also be directly connected with the end part of the lower sunshade curtain beam 9.

When the second motor 151 rotates forward, the lower sunshade curtain beam 9 is driven by the two second flexible shafts 153 to move towards the first bracket 1 to open the lower sunshade curtain 5. When the second motor 151 rotates reversely, the lower sunshade curtain beam 9 is driven by the two second flexible shafts 153 to move towards the second bracket 2 so as to pack up the lower sunshade curtain 5.

According to the needs, the above technical schemes can be combined to achieve the best technical effect.

What has been described above is merely the principles and preferred embodiments of the present invention. It should be noted that, for those skilled in the art, on the basis of the principle of the present invention, several other modifications can be made, and the protection scope of the present invention should be considered.

Claims

1. A skylight sunshade curtain device comprises a first bracket, a second bracket and two guide rails connected between the first bracket and the second bracket;

the skylight sunshade device is characterized by further comprising an upper sunshade curtain and a lower sunshade curtain which are arranged on the two guide rails in a sliding mode, wherein the upper sunshade curtain and the lower sunshade curtain are respectively in an opening state and a closing state;

2. The sunroof shade device according to claim 1, wherein the guide rail has an upper rail and a lower rail;

3. The sunroof shade apparatus of claim 2, wherein upper sliders are connected to both ends of the upper shade beam, respectively, the upper sliders being slidably connected to the upper rail.

4. The sunroof shade apparatus of claim 2, wherein lower sliders are connected to both ends of the lower shade beam, respectively, the lower sliders being connected to the lower rails.

5. The sunroof blind apparatus according to claim 2, wherein the upper blind is provided with an upper blind coil spring for winding the upper blind around the upper blind reel.

6. The sunroof shade apparatus according to claim 5, wherein one upper shade coil spring is mounted to each of both side edges of the upper shade.

7. The sunroof shade device according to claim 2, wherein the lower shade is provided with a lower shade coil spring for winding the lower shade around the lower shade roller.

8. The sunroof shade apparatus according to claim 7, wherein one lower shade coil spring is mounted to each of both side edges of the lower shade.

9. The sunroof shade apparatus according to claim 2, wherein an upper beam driving mechanism for driving the upper shade beam to slide back and forth is installed on the first bracket, and an output end of the upper beam driving mechanism is connected to the upper shade beam.

10. The sunroof shade apparatus according to claim 2, wherein the second bracket is provided with a lower cross member driving mechanism for driving the lower shade cross member to slide back and forth, and an output end of the lower cross member driving mechanism is connected to the lower shade cross member.